https://ctd.inp.nsk.su/wiki/api.php?action=feedcontributions&feedformat=atom&user=V.S.VorobevCharm-Tau Detector - User contributions [en]2026-04-18T13:02:36ZUser contributionsMediaWiki 1.19.24https://ctd.inp.nsk.su/wiki/index.php/File:SCT_Memorandum_of_Partnership_2021-11-18.pdfFile:SCT Memorandum of Partnership 2021-11-18.pdf2021-11-18T07:13:37Z<p>V.S.Vorobev: V.S.Vorobev uploaded a new version of &quot;File:SCT Memorandum of Partnership 2021-11-18.pdf&quot;</p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:SCT_Memorandum_of_Partnership_2021-11-18.pdfFile:SCT Memorandum of Partnership 2021-11-18.pdf2021-11-18T04:50:24Z<p>V.S.Vorobev: V.S.Vorobev uploaded a new version of &quot;File:SCT Memorandum of Partnership 2021-11-18.pdf&quot;</p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CDRCDR2021-11-18T01:49:13Z<p>V.S.Vorobev: </p>
<hr />
<div>Russian version:<br />
* [[:Media:CDR2_ScTau_ru_vol1.pdf|CDR 2018, part 1: Physics, Detector (rus)]]<br />
* [[:Media:CDR2_ScTau_ru_vol2.pdf|CDR 2018, part 2: Collider, Injector (rus)]]<br />
<br />
English version:<br />
* [[:Media:CDR2_ScTau_en_vol1.pdf|CDR 2018, part 1: Physics, Detector (eng)]]<br />
* [[:Media:CDR2_ScTau_en_vol2.pdf|CDR 2018, part 2: Collider, Injector (eng)]]<br />
<br />
Other documents:<br />
<br />
The SCT Memorandom of Partership<br />
* [[:Media:SCT_Memorandum_of_Partnership.pdf|MoP 2021.09.01]] (The main text is frozen)<br />
* [[:Media:SCT_Memorandum_of_Partnership_2021-11-18.pdf|MoP 2021.11.18]] (Updated: Annex 1. The Partners)</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:SCT_Memorandum_of_Partnership_2021-11-18.pdfFile:SCT Memorandum of Partnership 2021-11-18.pdf2021-11-18T01:46:57Z<p>V.S.Vorobev: </p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CDRCDR2021-11-12T14:44:14Z<p>V.S.Vorobev: </p>
<hr />
<div>Russian version:<br />
* [[:Media:CDR2_ScTau_ru_vol1.pdf|CDR 2018, part 1: Physics, Detector (rus)]]<br />
* [[:Media:CDR2_ScTau_ru_vol2.pdf|CDR 2018, part 2: Collider, Injector (rus)]]<br />
<br />
English version:<br />
* [[:Media:CDR2_ScTau_en_vol1.pdf|CDR 2018, part 1: Physics, Detector (eng)]]<br />
* [[:Media:CDR2_ScTau_en_vol2.pdf|CDR 2018, part 2: Collider, Injector (eng)]]<br />
<br />
Other documents:<br />
* [[:MEdia:SCT_Memorandum_of_Partnership.pdf|The SCT Memorandom of Partership]]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:SCT_Memorandum_of_Partnership.pdfFile:SCT Memorandum of Partnership.pdf2021-11-12T14:43:15Z<p>V.S.Vorobev: V.S.Vorobev uploaded a new version of &quot;File:SCT Memorandum of Partnership.pdf&quot;</p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-08-20T07:48:53Z<p>V.S.Vorobev: /* Участники процесса */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
<br />
{| class="wikitable"<br />
|-<br />
! Параметр<br />
! Значение<br />
! Комментарий<br />
|-<br />
| Минимальный импульс трека<br />
| <math>50\ MeV</math><br />
| <br />
|-<br />
| Минимальная энергия фотона<br />
| <math>10\ MeV</math><br />
| <br />
|-<br />
| Минимальный полярный угол калориметра<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в дрейфовой камере<br />
| <math>20^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в TPC<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Характерное импульское разрешение<br />
| <math>0.5\%</math><br />
| <br />
|-<br />
| Характерное энергетическое разрешение<br />
| <math>1.5\%</math><br />
| <br />
|-<br />
| Характерное разрешение по вершине распада<br />
| <math>100\ \mu m</math><br />
| <br />
|-<br />
| Характерное пространственное разрешение в калориметре<br />
| <math>6\ mm</math><br />
| <br />
|-<br />
| Магнитрое поле в детекторе<br />
| <math>1.5\ T</math><br />
| <br />
|-<br />
| Характерное разделение пи/мю<br />
| <math>5\sigma</math><br />
| <br />
|-<br />
| Характерное разделение K/пи<br />
| <math>>5\sigma</math><br />
| <br />
|-<br />
|}<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - внутренняя мишень, рассеяние e+ и e- на ядрах<br />
* [mailto:! М.Н. Ачасов] - спектроскопия легких адронов<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] - чармоний<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
*** Конференция [https://indico.nucleares.unam.mx/event/1541/ Hadron 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
* PhD Thesis<br />
** [https://eldorado.tu-dortmund.de/handle/2003/36043?mode=full Probing the standard model with rare charm decays, PhD thesis]<br />
* Annual Review of Nuclear and Particle Science<br />
** G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Ann. Rev. of Nucl. and Part. 53 (2003) 431]<br />
** G. Isidori, Y. Nir, and G. Perez, Flavor Physics Constraints for Physics Beyond the Standard Model [https://doi.org/10.1146/annurev.nucl.012809.104534 Ann. Rev. of Nucl. and Part. 60 (2010) 355]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-08-20T07:47:24Z<p>V.S.Vorobev: /* Участники процесса */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
<br />
{| class="wikitable"<br />
|-<br />
! Параметр<br />
! Значение<br />
! Комментарий<br />
|-<br />
| Минимальный импульс трека<br />
| <math>50\ MeV</math><br />
| <br />
|-<br />
| Минимальная энергия фотона<br />
| <math>10\ MeV</math><br />
| <br />
|-<br />
| Минимальный полярный угол калориметра<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в дрейфовой камере<br />
| <math>20^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в TPC<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Характерное импульское разрешение<br />
| <math>0.5\%</math><br />
| <br />
|-<br />
| Характерное энергетическое разрешение<br />
| <math>1.5\%</math><br />
| <br />
|-<br />
| Характерное разрешение по вершине распада<br />
| <math>100\ \mu m</math><br />
| <br />
|-<br />
| Характерное пространственное разрешение в калориметре<br />
| <math>6\ mm</math><br />
| <br />
|-<br />
| Магнитрое поле в детекторе<br />
| <math>1.5\ T</math><br />
| <br />
|-<br />
| Характерное разделение пи/мю<br />
| <math>5\sigma</math><br />
| <br />
|-<br />
| Характерное разделение K/пи<br />
| <math>>5\sigma</math><br />
| <br />
|-<br />
|}<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - внутренняя мишень, рассеяние e+ и e- на ядрах<br />
* [mailto:! М.Н. Ачасов] - спектроскопия легких адронов<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
*** Конференция [https://indico.nucleares.unam.mx/event/1541/ Hadron 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
* PhD Thesis<br />
** [https://eldorado.tu-dortmund.de/handle/2003/36043?mode=full Probing the standard model with rare charm decays, PhD thesis]<br />
* Annual Review of Nuclear and Particle Science<br />
** G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Ann. Rev. of Nucl. and Part. 53 (2003) 431]<br />
** G. Isidori, Y. Nir, and G. Perez, Flavor Physics Constraints for Physics Beyond the Standard Model [https://doi.org/10.1146/annurev.nucl.012809.104534 Ann. Rev. of Nucl. and Part. 60 (2010) 355]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-08-20T07:31:35Z<p>V.S.Vorobev: /* Участники процесса */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
<br />
{| class="wikitable"<br />
|-<br />
! Параметр<br />
! Значение<br />
! Комментарий<br />
|-<br />
| Минимальный импульс трека<br />
| <math>50\ MeV</math><br />
| <br />
|-<br />
| Минимальная энергия фотона<br />
| <math>10\ MeV</math><br />
| <br />
|-<br />
| Минимальный полярный угол калориметра<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в дрейфовой камере<br />
| <math>20^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в TPC<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Характерное импульское разрешение<br />
| <math>0.5\%</math><br />
| <br />
|-<br />
| Характерное энергетическое разрешение<br />
| <math>1.5\%</math><br />
| <br />
|-<br />
| Характерное разрешение по вершине распада<br />
| <math>100\ \mu m</math><br />
| <br />
|-<br />
| Характерное пространственное разрешение в калориметре<br />
| <math>6\ mm</math><br />
| <br />
|-<br />
| Магнитрое поле в детекторе<br />
| <math>1.5\ T</math><br />
| <br />
|-<br />
| Характерное разделение пи/мю<br />
| <math>5\sigma</math><br />
| <br />
|-<br />
| Характерное разделение K/пи<br />
| <math>>5\sigma</math><br />
| <br />
|-<br />
|}<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - спектроскопия легких адронов<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
*** Конференция [https://indico.nucleares.unam.mx/event/1541/ Hadron 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
* PhD Thesis<br />
** [https://eldorado.tu-dortmund.de/handle/2003/36043?mode=full Probing the standard model with rare charm decays, PhD thesis]<br />
* Annual Review of Nuclear and Particle Science<br />
** G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Ann. Rev. of Nucl. and Part. 53 (2003) 431]<br />
** G. Isidori, Y. Nir, and G. Perez, Flavor Physics Constraints for Physics Beyond the Standard Model [https://doi.org/10.1146/annurev.nucl.012809.104534 Ann. Rev. of Nucl. and Part. 60 (2010) 355]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-08-17T10:20:04Z<p>V.S.Vorobev: /* Рабочие материалы */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
<br />
{| class="wikitable"<br />
|-<br />
! Параметр<br />
! Значение<br />
! Комментарий<br />
|-<br />
| Минимальный импульс трека<br />
| <math>50\ MeV</math><br />
| <br />
|-<br />
| Минимальная энергия фотона<br />
| <math>10\ MeV</math><br />
| <br />
|-<br />
| Минимальный полярный угол калориметра<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в дрейфовой камере<br />
| <math>20^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в TPC<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Характерное импульское разрешение<br />
| <math>0.5\%</math><br />
| <br />
|-<br />
| Характерное энергетическое разрешение<br />
| <math>1.5\%</math><br />
| <br />
|-<br />
| Характерное разрешение по вершине распада<br />
| <math>100\ \mu m</math><br />
| <br />
|-<br />
| Характерное пространственное разрешение в калориметре<br />
| <math>6\ mm</math><br />
| <br />
|-<br />
| Магнитрое поле в детекторе<br />
| <math>1.5\ T</math><br />
| <br />
|-<br />
| Характерное разделение пи/мю<br />
| <math>5\sigma</math><br />
| <br />
|-<br />
| Характерное разделение K/пи<br />
| <math>>5\sigma</math><br />
| <br />
|-<br />
|}<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
*** Конференция [https://indico.nucleares.unam.mx/event/1541/ Hadron 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
* PhD Thesis<br />
** [https://eldorado.tu-dortmund.de/handle/2003/36043?mode=full Probing the standard model with rare charm decays, PhD thesis]<br />
* Annual Review of Nuclear and Particle Science<br />
** G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Ann. Rev. of Nucl. and Part. 53 (2003) 431]<br />
** G. Isidori, Y. Nir, and G. Perez, Flavor Physics Constraints for Physics Beyond the Standard Model [https://doi.org/10.1146/annurev.nucl.012809.104534 Ann. Rev. of Nucl. and Part. 60 (2010) 355]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/AuroraMasterAuroraMaster2021-08-04T11:25:57Z<p>V.S.Vorobev: </p>
<hr />
<div>= Introduction =<br />
<br />
The AuroraMaster package contains python classes providing high level interfaces to the Aurora algorithms and tools. The following tools are implemented in AuroraMaster at the moment:<br />
<br />
* Read/write SCT EDM data<br />
* Primary event generators<br />
** Particle gun<br />
** [https://evtgen.hepforge.org/ EvtGen]<br />
* Parametric simulation<br />
** Main SCT parametric simulation<br />
** [[Simple_SCT_parametric_simulation|Simple parametric simulation]]<br />
* Full simulation with DD4Hep and Geant4<br />
* [[Use_Analysis_package|Event analysis and selection with the Analysis package]]<br />
** Access to reconstructed final-state-particles<br />
** Reconstruction of particle decay trees<br />
** Saving flat n-tuples for further physics analysis<br />
<br />
= The AuroraMaster class =<br />
<br />
Each job option employing AuroraMaster must contain one instance of the AuroraMaster class:<br />
<br />
from AuroraMaster.auroramaster import AuroraMaster<br />
am = AuroraMaster(olvl='info')<br />
<br />
The <code>olvl</code> argument specifies the default output level: 'debug' or 'info', where the latter is used as the default.<br />
<br />
The job option logic is formed by invoking methods of the AuroraMaster instance. Each method has the 'cfg' parameter that takes an AuroraConfig object.<br />
<br />
The following example shows a ready-to-use job option for event generation with [https://evtgen.hepforge.org/ EvtGen] and saving them to file in SCT EDM format:<br />
<br />
from AuroraMaster.auroramaster import AuroraMaster, AuroraConfig<br />
# Instantiate AuroraMaster<br />
am = AuroraMaster('evtgen', 'info')<br />
# Plug in component for EvtGen<br />
evtgenCfg = AuroraConfig({<br />
'root' : 'psi(3770)',<br />
'dec': './dkpi.dec'<br />
})<br />
am.add_signal_provider('evtgen', evtgenCfg)<br />
# Plug in component for SCT EDM output<br />
edmoutputCfg = AuroraConfig{<br />
'filename': 'parsim.root',<br />
'commands': ['keep *'],<br />
})<br />
am.add_edmo(cfg=edmoutputCfg)<br />
am.run(evtmax=10**4)<br />
<br />
The <code>run</code> method must be invoked at the end.<br />
<br />
= AuroraConfig =<br />
<br />
The AuroraConfig is a data structure very similar to python dict. It can contain nested lists, dicts and other AuroraConfig objects. An example below shows configuration of simple parametric simulation:<br />
<br />
parsimCfg = AuroraConfig({<br />
'Tracker' : {<br />
'deteff': 0.99,<br />
'ptcut': 50e-3,<br />
'bfield': 1.5,<br />
'maxCosth': np.cos(10./180. * np.pi),<br />
'momentumSampler' : {<br />
'mean' : np.zeros(3),<br />
'covar': np.diag(np.ones(3)) * 1.e-3**2<br />
},<br />
'vertexSampler' : {<br />
'mean' : np.zeros(3),<br />
'covar': np.diag(np.ones(3)) * 1.e-3**2<br />
}<br />
},<br />
'PID' : {<br />
'eff' : 0.95,<br />
'sigmaKpi' : 6.,<br />
'sigmaMupi' : 4.,<br />
'sigmaKp' : 3.,<br />
'sigmaE' : 3.,<br />
},<br />
'Calorimeter' : {<br />
'deteff': 1.0,<br />
'energyThreshold' : 15e-3,<br />
'maxCosth' : np.cos(10./180. * np.pi),<br />
'sampler' : {<br />
'mean' : np.zeros(3),<br />
'covar': (np.diag(np.ones(3)) * 1.e-2**2).ravel()<br />
}<br />
}<br />
})<br />
<br />
An AuroraConfig object can be serialized to and serialized from json with methods <code>to_json</code> and <code>from_json</code>. It is recommended to create json files with configuration using this interface, and not create json manualy.<br />
<br />
= AuroraMaster components =<br />
<br />
All AuroraMaster class methods of the <code>add_{component}</code> format has two parameters:<br />
<br />
* <code>cfg</code> - an object of the <code>AuroraConfig</code> class. Default value it None<br />
* <code>json</code> - string path to a json file with configuration. Default value it None<br />
<br />
A component set up is dome with three steps:<br />
<br />
# Default configuration<br />
# Configuration with passed json file. It overwrites any subset of default parameters. Parameters not specified in json keep the default values<br />
# Configuration with <code>AuroraConfig</code> object. It overrides values of the specified parameters leaving other parameters unchanged<br />
<br />
If some parameter is specified in both json file and <code>AuroraConfig</code> object, the final value is taken from the <code>AuroraConfig</code> object.<br />
<br />
== add_edmi() ==<br />
<br />
The AuroraMaster.add_edmi() method initialized ScTauDataSvc, instantiates a PodioInput class and has the following default configuration:<br />
<br />
edminputCfg = AuroraConfig({<br />
'name' : 'EDMReader',<br />
'olevel' : 'info',<br />
'filename': 'input.root',<br />
'collections': ['Particles'],<br />
})<br />
<br />
== add_edmo() ==<br />
<br />
The AuroraMaster.add_edmo() method initialized ScTauDataSvc, instantiates a PodioOutput class and has the following default configuration:<br />
<br />
edmoutputCfg = AuroraConfig({<br />
'filename': 'output.root',<br />
'commands': ['keep *'],<br />
'olevel' : 'info',<br />
})<br />
<br />
== add_parsim() ==<br />
<br />
The AuroraMaster.add_parsim() method initializes tools for parametric simulation and instantiates the required algorithm. Selection of specific implementation of the parametric simulation is done by the parameter `which`. The code snipped below shows how to plug in simple parametric simulation:<br />
<br />
simplepartimCfg = AuroraConfig({<br />
'olevel': 'info',<br />
'Tracker' : {<br />
'deteff': 0.99,<br />
'ptcut': 50e-3,<br />
'bfield': 1.5,<br />
'maxCosth': np.cos(10./180. * np.pi),<br />
'momentumSampler' : {<br />
'mean' : np.zeros(3),<br />
'covar': np.diag(np.ones(3)) * 1.e-3**2<br />
},<br />
'vertexSampler' : {<br />
'mean' : np.zeros(3),<br />
'covar': np.diag(np.ones(3)) * 1.e-3**2<br />
}<br />
},<br />
'PID' : {<br />
'eff' : 0.95,<br />
'sigmaKpi' : 6.,<br />
'sigmaMupi' : 4.,<br />
'sigmaKp' : 3.,<br />
'sigmaE' : 3.,<br />
},<br />
'Calorimeter' : {<br />
'deteff': 1.0,<br />
'energyThreshold' : 15e-3,<br />
'maxCosth' : np.cos(10./180. * np.pi),<br />
'sampler' : {<br />
'mean' : np.zeros(3),<br />
'covar': np.diag(np.ones(3)) * 1.e-2**2<br />
}<br />
}<br />
})<br />
am.add_parsim(which='simple', cfg=parsimCfg)<br />
<br />
See [[Simple SCT parametric simulation|the detailed description]] of the simple SCT parametric simulation.<br />
<br />
== add_fullsim() ==<br />
<br />
fullsimCfg = AuroraConfig({<br />
'detector': 'SimG4DD4hepDetector',<br />
'subsystems': ['ALL'],<br />
'physicslist': 'SimG4FtfpBert',<br />
'energyCut': 0.1 * units.GeV,<br />
'field' : {<br />
'Bz' : 1.0 * units.tesla,<br />
'rmax' : 100.0 * units.m,<br />
'zmax' : 100.0 * units.m<br />
},<br />
'olevel': 'info',<br />
})<br />
<br />
== add_signal_provider() ==<br />
<br />
eventgenCfg = AuroraConfig({<br />
'root' : 'vpho',<br />
'dec' : '',<br />
'ecms' : 0.,<br />
'olevel': 'info',<br />
})<br />
am.add_signal_provider('evtgen', evtgenCfg)<br />
<br />
or <br />
<br />
particlegunCfg = AuroraConfig({<br />
'momentum' : np.array([0.1, 1.5]) * units.GeV,<br />
'phi': [0., 2*np.pi],<br />
'theta': np.array([10, 170]) * units.rad,<br />
'particles': [11, 13, 211],<br />
'olevel': 'info',<br />
}) <br />
am.add_signal_provider('gun', gunCfg)</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/Simple_SCT_parametric_simulationSimple SCT parametric simulation2021-08-04T11:25:47Z<p>V.S.Vorobev: </p>
<hr />
<div>== SimpleSctParSimAlg ==<br />
<br />
The <code>SimpleSctParSimAlg</code> algorithm ([https://git.inp.nsk.su/sctau/aurora/-/tree/master/Simulation/SimpleSctParSim gitlab]) implements parametric simulation routine. Tools implementing [https://git.inp.nsk.su/sctau/aurora/-/blob/master/Simulation/SimpleSctParSim/SimpleSctParSim/ICalorimeterTool.h <code>ICalorimeterTool</code>], [https://git.inp.nsk.su/sctau/aurora/-/blob/master/Simulation/SimpleSctParSim/SimpleSctParSim/ITrackerTool.h <code>ITrackerTool</code>], and [https://git.inp.nsk.su/sctau/aurora/-/blob/master/Simulation/SimpleSctParSim/SimpleSctParSim/SimplePIDTool.h <code>IPIDTool</code>] are required for actual simulation. A user can implement these tools with necessary logic. The following example tool implementations exist:<br />
<br />
* [https://git.inp.nsk.su/sctau/aurora/-/blob/master/Simulation/SimpleSctParSim/SimpleSctParSim/SimpleCalorimeterTool.h SimpleCalorimeterTool]<br />
* [https://git.inp.nsk.su/sctau/aurora/-/blob/master/Simulation/SimpleSctParSim/SimpleSctParSim/SimpleTrackerTool.h SimpleTrackerTool]<br />
* [https://git.inp.nsk.su/sctau/aurora/-/blob/master/Simulation/SimpleSctParSim/SimpleSctParSim/SimplePIDTool.h SimplePIDTool]<br />
<br />
== SimpleCalorimeterTool ==<br />
The <code>SimpleCalorimeterTool</code> tool implements the following logic:<br />
<br />
* Lower photon energy threshold (<code>energyThreshold</code> property)<br />
* Photon detection efficiency (<code>deteff</code> property)<br />
* Polar angle cut (<code>maxCosth</code> property)<br />
* 3D Gaussian resolution for energy, cos(theta) and phi variables (<code>sampler</code> property)<br />
<br />
== SimpleTrackerTool ==<br />
The <code>SimpleTrackerTool</code> tool implements the following logic:<br />
<br />
* Minimal track transverse momentum (<code>ptcut</code> parameter)<br />
* Track reconstruction efficiency (<code>deteff</code> parameter)<br />
* Magnetic field (<code>bfield</code> parameter)<br />
* Polar angle cut (<code>maxCosth</code> property)<br />
* 3D Gaussian resolution for track vertex (<code>vertexSampler</code> property)<br />
* 3D Gaussian resolution for track momentum (<code>momentumSampler</code> property)<br />
<br />
== SimplePIDTool ==<br />
The <code>SimplePIDTool</code> tool implements the following logic:<br />
<br />
* Probability of having PID decision (<code>eff</code> parameter)<br />
* mu/pi separation quality (<code>sigmaMupi</code> parameter)<br />
* K/pi separation quality (<code>sigmaKpi</code> parameter)<br />
* K/p separation quality (<code>sigmaKp</code> parameter)<br />
* electron id quality (<code>sigmaE</code> parameter)<br />
<br />
== Config example ==<br />
parsimCfg = AuroraConfig({<br />
'Tracker' : {<br />
'deteff': 0.99,<br />
'ptcut': 50e-3,<br />
'bfield': 1.5,<br />
'maxCosth': np.cos(10./180. * np.pi),<br />
'momentumSampler' : {<br />
'mean' : np.zeros(3),<br />
'covar': np.diag(np.ones(3)) * 1.e-3**2<br />
},<br />
'vertexSampler' : {<br />
'mean' : np.zeros(3),<br />
'covar': np.diag(np.ones(3)) * 1.e-3**2<br />
}<br />
},<br />
'PID' : {<br />
'eff' : 1.00,<br />
'sigmaKpi' : 6.,<br />
'sigmaMupi' : 4.,<br />
'sigmaKp' : 3.,<br />
'sigmaE' : 3.,<br />
},<br />
'Calorimeter' : {<br />
'deteff': 1.0,<br />
'energyThreshold' : 15e-3,<br />
'maxCosth' : np.cos(10./180. * np.pi),<br />
'sampler' : {<br />
'mean' : np.zeros(3),<br />
'covar': (np.diag(np.ones(3)) * 1.e-2**2).ravel()<br />
}<br />
}<br />
})<br />
am.add_parsim(which='simple', cfg=parsimCfg)</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/Use_Analysis_packageUse Analysis package2021-08-04T11:25:38Z<p>V.S.Vorobev: </p>
<hr />
<div>= Introduction =<br />
<br />
The <code>Analysis</code> module implements tools for:<br />
<br />
* Access reconstructed final-state-particles<br />
* Building particle decay trees<br />
* Imposing selection criteria<br />
* Applying kinematic fit to a decay tree<br />
* Saving flat ntuple to a <code>ROOT</code> <code>TTree</code><br />
<br />
== Decay description ==<br />
<br />
The <code>Analysis</code> module supports string description of particle decays. [https://git.inp.nsk.su/sctau/aurora/-/blob/master/Generation/Generators/EvtGen_i/share/evt.pdl The EvtGen particle naming scheme] is used. The following strings are valid decay expressions:<br />
<br />
"D0"<br />
"D0 -> K- pi+"<br />
"D0 -> [rho0 -> pi+ pi-] pi0"<br />
<br />
A decay string may or may not contain the arrow and the right-hand side. Spaces around the arrow are optional. Nested decays are expressed with square brackets.<br />
<br />
A particle in the decay string can be '''labeled''':<br />
<br />
"pi+:lowpt"<br />
<br />
"lowpt" is a label. Labels allow working with several lists of the same particle type. For example:<br />
<br />
"D*+ -> [D0 -> K- pi+] pi+:lowpt"<br />
<br />
A particle in the decay string can be '''selected''' using the "^" symbol:<br />
<br />
"D0 -> ^K- ^pi+"<br />
<br />
"K-" and "pi+" are selected here.<br />
<br />
== Cuts description ==<br />
<br />
Set of [[Analysis variables|predefined variables]] is included in the <code>Analysis</code> module. There are several types of variables:<br />
<br />
* ''Particle variables''. A variable is calculated for a given particle, e.g.: <code>M</code> (mass).<br />
* ''Parametric particle variables''. A variable is calculate for a given particle and depends on one or several parameters, e.g. <code>deltaM</code> depends on the beam energy.<br />
* ''Event variables''. A variable is calculated for an event, e.g. <code>ncharged</code> (number of tracks).<br />
<br />
Selection criteria are imposed with string expressions like:<br />
<br />
* "M < 0.12" # the mass less than 0.12 GeV<br />
* "charge == 0" # zero electric charge<br />
* "1.8 < M < 1.9" # the mass is between 1.8 GeV and 1.9 GeV<br />
* "charge == 0 and M < 0.12"<br />
* "charge == 0 and [M < 0.12 or pt > 0.1]"<br />
<br />
Square brackets are used to manage the order of logical operations. The following operators are available: ">", ">=", "<", "<=", "==", "!=", "and", "or".<br />
<br />
= AuroraMaster interface =<br />
<br />
An analysis algorithm is being connected to an <code>AuroraMaster</code> instance with the <code>add_analysis</code> method. An <code>AuroraConfig</code> object with analysis configuration must be passed as the <code>cfg</code> parameter:<br />
<br />
am = AuroraMaster('analysis', 'info')<br />
am.add_analysis(cfg=anaysisCfg)<br />
<br />
An analysis configuration should contain three items<br />
<br />
anaysisCfg = AuroraConfig({<br />
'Particles' : [...],<br />
'Modifiers' : [...],<br />
'Tuples' : [...]<br />
})<br />
<br />
== EventLoader ==<br />
<br />
The EventLoader algorithm specifies lists of the final-state-particles and corresponding cuts. Its configuration is a list of dictionaries of the following format:<br />
<br />
[<br />
{<br />
'decstr': 'pi+ cc',<br />
'cutstr': 'pt > 0.10',<br />
},<br />
{<br />
'decstr': 'K+ cc',<br />
'cutstr': 'pt > 0.10',<br />
},<br />
{<br />
'decstr': 'pi+:lowpt cc',<br />
'cutstr': 'pt < 0.20',<br />
},<br />
{<br />
'decstr': 'gamma',<br />
'cutstr': 'E > 0.07',<br />
},<br />
...<br />
]<br />
<br />
The <code>decstr</code> key correspond to the decay string. "cc" at the end of the decay string means that list of anti-particles will be created, too. The configuration above leads seven lists: "pi+", "pi-", "K+", "K-", "pi+:lowpt", "pi-:lowpt", and "gamma". These lists are available for the further analysis.<br />
<br />
== Particle combiner ==<br />
<br />
The <code>ParticleCombiner</code> algorithm is used to construct candidates for intermediate unstable particles like D0 or Lambda_c. An analysis job usually includes several ParticleCombiner algorithms. Combines are configured with the following parameters:<br />
<br />
[<br />
{<br />
'label': 'Dkpi',<br />
'decstr': 'D0 -> pi+ K-',<br />
'cutstr': '1.82 < M < 1.90',<br />
'selfconj': False<br />
},<br />
{<br />
'label': 'Dkk',<br />
'decstr': 'D0:kk -> K+ K-',<br />
'cutstr': '1.82 < M < 1.90',<br />
'selfconj': True<br />
},<br />
{<br />
'label': 'DstDkpi',<br />
'decstr': 'D*+ -> D0 pi+:lowpt',<br />
'cutstr': 'deltaM < 0.10',<br />
'selfconj': False<br />
},<br />
]<br />
<br />
The left side of the decay string defines the list of particles to create, and the right side must refer to existing particle lists (created by EventLoader or other ParticleCombiner). If selfconj us false then the charge conjugated list will be created, too ('anti-D0 -> pi- K+' and `D*- -> anti-D0 pi-:lowpt` will be created for the configuration above).<br />
<br />
== Ntuple configuration ==<br />
<br />
The last step of the analysis is saving necessary variables in a flat ntuple. Each ntuple algorithm corresponds to a particle list. There can be several ntuple algorithms corresponding to different particle lists. An example configuration is<br />
<br />
[<br />
{<br />
'label': 'd0tup',<br />
'root': 'D0',<br />
'ofile': 'tup.root',<br />
'vars' : [<br />
{<br />
'selector': 'root',<br />
'varlist': ['momentumVars', 'E', 'M'],<br />
},<br />
{<br />
'selector': 'D0 -> ^pi+ ^K-',<br />
'varlist': ['momentumVars', 'pidVars', 'matchVars', 'charge']<br />
}<br />
]<br />
},<br />
{<br />
'label': 'dsttup',<br />
'root': 'D*+',<br />
'ofile': 'tup.root',<br />
'vars' : [<br />
{<br />
'selector': 'root',<br />
'varlist': ['M', 'deltaM'],<br />
},<br />
{<br />
'selector': 'D*+ -> D0 ^pi+:lowpt',<br />
'varlist': ['momentumVars', 'pidVars', 'charge']<br />
}<br />
]<br />
},<br />
]<br />
<br />
The "label" value defines the name of TTree in the output file. The "root" value must correspond to an existing particle list. The "selector" value is a decay string specifying particles for which variables will be calculated and saved. The "varlist" is a list of named variables. Note that "momentumVars" and "pidVars" names denote groups of variables. Here is the complete list of names variable groups (defined in [https://git.inp.nsk.su/sctau/aurora/-/blob/master/Controls/AuroraMaster/python/analysis.py analysis.py]):<br />
<br />
VARSETS = {<br />
'momentumVars': ['px', 'py', 'pz', 'p', 'pt'],<br />
'pidVars': ['pidkpi', 'pidmupi', 'pidkp', 'pide'],<br />
'matchVars': ['pdgid_mc', 'px_mc', 'py_mc', 'pz_mc'],<br />
}<br />
<br />
<br />
== Convenience methods ==<br />
<br />
A set of convenience methods are defined in the python Analysis module. These methods ease configuration of the analysis. The example below shows how to define the same configuration as we considered above:<br />
<br />
from AuroraMaster.auroramaster import AuroraMaster, AuroraConfig<br />
from AuroraMaster.auroramaster import Analysis as A<br />
am = AuroraMaster('analysis', 'info')<br />
edminputCfg = AuroraConfig({<br />
'filename': './parsim.root', # should be in your run directory<br />
'collections': ['Particles', 'allGenParticles'],<br />
})<br />
am.add_edmi(cfg=edminputCfg)<br />
anaysisCfg = A.analysis(<br />
fsps=[<br />
A.fspList('pi+ cc'),<br />
A.fspList('K+ cc'),<br />
A.fspList('pi+:lowpt cc', 'pt < 0.20'),<br />
A.fspList('gamma'),<br />
],<br />
combiners=[<br />
A.combiner('Dkpi', 'D0 -> pi+ K-', '1.8 < M < 1.9'),<br />
A.combiner('Dkk', 'D0 -> K+ K-', '1.8 < M < 1.9', selfconj=True),<br />
A.combiner('DstDkpi', 'D*+ -> D0 pi+:lowpt', 'deltaM < 0.10'),<br />
],<br />
tuples=[<br />
A.ntuple('tup', 'D0', 'tuple.root', [<br />
A.vars('root', ['momentumVars', 'E', 'M']),<br />
A.vars('D0 -> ^pi+ ^K-', ['momentumVars', 'pidVars', 'matchVars']),<br />
]<br />
),<br />
A.ntuple('tup', 'D0', 'tuple.root', [<br />
A.vars('root', ['M', 'deltaM']),<br />
A.vars('D*+ -> D0 ^pi+:lowpt', ['momentumVars', 'pidVars', 'charge']),<br />
]<br />
),<br />
]<br />
)<br />
am.add_analysis(cfg=anaysisCfg)<br />
am.run(evtmax=10**4)</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/Tutorials_%26_how-to%27sTutorials & how-to's2021-08-04T11:25:26Z<p>V.S.Vorobev: </p>
<hr />
<div>= C++ tutorials =<br />
<br />
* [[Write AURORA/Gaudi algorithm| How-to write an AURORA/Gaudi algorithm]]<br />
* [[Write AURORA/Gaudi tool| How-to write an AURORA/Gaudi tool]]<br />
* [[Write AURORA/Gaudi service| How-to write an AURORA/Gaudi service]]<br />
* [[MVN sampling|How-to sample from a multivariate normal distribution]]<br />
<br />
= Python tutorials =<br />
<br />
* [[Use Analysis package| How-to use Analysis package]]<br />
* [[AuroraMaster|How-to use AuroraMaster]]<br />
* [[Simple SCT parametric simulation|How-to use simple parametric simulation]]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-08-01T05:48:39Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
<br />
{| class="wikitable"<br />
|-<br />
! Параметр<br />
! Значение<br />
! Комментарий<br />
|-<br />
| Минимальный импульс трека<br />
| <math>50\ MeV</math><br />
| <br />
|-<br />
| Минимальная энергия фотона<br />
| <math>10\ MeV</math><br />
| <br />
|-<br />
| Минимальный полярный угол калориметра<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в дрейфовой камере<br />
| <math>20^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в TPC<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Характерное импульское разрешение<br />
| <math>0.5\%</math><br />
| <br />
|-<br />
| Характерное энергетическое разрешение<br />
| <math>1.5\%</math><br />
| <br />
|-<br />
| Характерное разрешение по вершине распада<br />
| <math>100\ \mu m</math><br />
| <br />
|-<br />
| Характерное пространственное разрешение в калориметре<br />
| <math>6\ mm</math><br />
| <br />
|-<br />
| Магнитрое поле в детекторе<br />
| <math>6\ T</math><br />
| <br />
|-<br />
| Характерное разделение пи/мю<br />
| <math>5\sigma</math><br />
| <br />
|-<br />
| Характерное разделение K/пи<br />
| <math>>5\sigma</math><br />
| <br />
|-<br />
|}<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
*** Конференция [https://indico.nucleares.unam.mx/event/1541/ Hadron 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
* PhD Thesis<br />
** [https://eldorado.tu-dortmund.de/handle/2003/36043?mode=full Probing the standard model with rare charm decays, PhD thesis]<br />
* Annual Review of Nuclear and Particle Science<br />
** G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Ann. Rev. of Nucl. and Part. 53 (2003) 431]<br />
** G. Isidori, Y. Nir, and G. Perez, Flavor Physics Constraints for Physics Beyond the Standard Model [https://doi.org/10.1146/annurev.nucl.012809.104534 Ann. Rev. of Nucl. and Part. 60 (2010) 355]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-30T12:46:00Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
<br />
{| class="wikitable"<br />
|-<br />
! Параметр<br />
! Значение<br />
! Комментарий<br />
|-<br />
| Минимальный импульс трека<br />
| <math>50\ MeV</math><br />
| <br />
|-<br />
| Минимальная энергия фотона<br />
| <math>10\ MeV</math><br />
| <br />
|-<br />
| Минимальный полярный угол калориметра<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в дрейфовой камере<br />
| <math>20^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в TPC<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Характерное импульское разрешение<br />
| <math>0.5\%</math><br />
| <br />
|-<br />
| Характерное энергетическое разрешение<br />
| <math>1.5\%</math><br />
| <br />
|-<br />
| Характерное разрешение по вершине распада<br />
| <math>100\ \mu m</math><br />
| <br />
|-<br />
| Характерное пространственное разрешение в калориметре<br />
| <math>6\ mm</math><br />
| <br />
|-<br />
| Магнитрое поле в детекторе<br />
| <math>6\ T</math><br />
| <br />
|-<br />
| Характерное разделение пи/мю<br />
| <math>5\sigma</math><br />
| <br />
|-<br />
| Характерное разделение K/пи<br />
| <math>>5\sigma</math><br />
| <br />
|-<br />
|}<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
*** Конференция [https://indico.nucleares.unam.mx/event/1541/ Hadron 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
[https://eldorado.tu-dortmund.de/handle/2003/36043?mode=full Probing the standard model with rare charm decays, PhD thesis]<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Annual Review of Nuclear and Particle Science Vol. 53:431-499 (Volume publication date December 2003)]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-29T08:01:19Z<p>V.S.Vorobev: /* Источники */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
<br />
{| class="wikitable"<br />
|-<br />
! Параметр<br />
! Значение<br />
! Комментарий<br />
|-<br />
| Минимальный импульс трека<br />
| <math>50\ MeV</math><br />
| <br />
|-<br />
| Минимальная энергия фотона<br />
| <math>10\ MeV</math><br />
| <br />
|-<br />
| Минимальный полярный угол калориметра<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в дрейфовой камере<br />
| <math>20^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в TPC<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Характерное импульское разрешение<br />
| <math>0.5\%</math><br />
| <br />
|-<br />
| Характерное энергетическое разрешение<br />
| <math>1.5\%</math><br />
| <br />
|-<br />
| Характерное разрешение по вершине распада<br />
| <math>100\ \mu m</math><br />
| <br />
|-<br />
| Характерное пространственное разрешение в калориметре<br />
| <math>6\ mm</math><br />
| <br />
|-<br />
| Магнитрое поле в детекторе<br />
| <math>6\ T</math><br />
| <br />
|-<br />
| Характерное разделение пи/мю<br />
| <math>5\sigma</math><br />
| <br />
|-<br />
| Характерное разделение K/пи<br />
| <math>>5\sigma</math><br />
| <br />
|-<br />
|}<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
*** Конференция [https://indico.nucleares.unam.mx/event/1541/ Hadron 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Annual Review of Nuclear and Particle Science Vol. 53:431-499 (Volume publication date December 2003)]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-29T03:27:17Z<p>V.S.Vorobev: /* Рабочие материалы */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
<br />
{| class="wikitable"<br />
|-<br />
! Параметр<br />
! Значение<br />
! Комментарий<br />
|-<br />
| Минимальный импульс трека<br />
| <math>50\ MeV</math><br />
| <br />
|-<br />
| Минимальная энергия фотона<br />
| <math>10\ MeV</math><br />
| <br />
|-<br />
| Минимальный полярный угол калориметра<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в дрейфовой камере<br />
| <math>20^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в TPC<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Характерное импульское разрешение<br />
| <math>0.5\%</math><br />
| <br />
|-<br />
| Характерное энергетическое разрешение<br />
| <math>1.5\%</math><br />
| <br />
|-<br />
| Характерное разрешение по вершине распада<br />
| <math>100\ \mu m</math><br />
| <br />
|-<br />
| Характерное пространственное разрешение в калориметре<br />
| <math>6\ mm</math><br />
| <br />
|-<br />
| Магнитрое поле в детекторе<br />
| <math>6\ T</math><br />
| <br />
|-<br />
| Характерное разделение пи/мю<br />
| <math>5\sigma</math><br />
| <br />
|-<br />
| Характерное разделение K/пи<br />
| <math>>5\sigma</math><br />
| <br />
|-<br />
|}<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Annual Review of Nuclear and Particle Science Vol. 53:431-499 (Volume publication date December 2003)]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-29T03:27:06Z<p>V.S.Vorobev: /* Рабочие материалы */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
<br />
{| class="wikitable"<br />
|-<br />
! Параметр<br />
! Значение<br />
! Комментарий<br />
|-<br />
| Минимальный импульс трека<br />
| <math>50\ MeV</math><br />
| <br />
|-<br />
| Минимальная энергия фотона<br />
| <math>10\ MeV</math><br />
| <br />
|-<br />
| Минимальный полярный угол калориметра<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный угол трека в дрейфовой камере<br />
| <math>20^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный трека в TPC<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Характерное импульское разрешение<br />
| <math>0.5\%</math><br />
| <br />
|-<br />
| Характерное энергетическое разрешение<br />
| <math>1.5\%</math><br />
| <br />
|-<br />
| Характерное разрешение по вершине распада<br />
| <math>100\ \mu m</math><br />
| <br />
|-<br />
| Характерное пространственное разрешение в калориметре<br />
| <math>6\ mm</math><br />
| <br />
|-<br />
| Магнитрое поле в детекторе<br />
| <math>6\ T</math><br />
| <br />
|-<br />
| Характерное разделение пи/мю<br />
| <math>5\sigma</math><br />
| <br />
|-<br />
| Характерное разделение K/пи<br />
| <math>>5\sigma</math><br />
| <br />
|-<br />
|}<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Annual Review of Nuclear and Particle Science Vol. 53:431-499 (Volume publication date December 2003)]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-29T03:26:51Z<p>V.S.Vorobev: /* Рабочие материалы */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
<br />
{| class="wikitable"<br />
|-<br />
! Параметр<br />
! Значение<br />
! Комментарий<br />
|-<br />
| Минимальный импульс трека<br />
| <math>50\ MeV</math><br />
| <br />
|-<br />
| Минимальная энергия фотона<br />
| <math>10\ MeV</math><br />
| <br />
|-<br />
| Минимальный полярный угол калориметра<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный трека в дрейфовой камере<br />
| <math>20^{\circ}</math><br />
| <br />
|-<br />
| Минимальный полярный трека в TPC<br />
| <math>10^{\circ}</math><br />
| <br />
|-<br />
| Характерное импульское разрешение<br />
| <math>0.5\%</math><br />
| <br />
|-<br />
| Характерное энергетическое разрешение<br />
| <math>1.5\%</math><br />
| <br />
|-<br />
| Характерное разрешение по вершине распада<br />
| <math>100\ \mu m</math><br />
| <br />
|-<br />
| Характерное пространственное разрешение в калориметре<br />
| <math>6\ mm</math><br />
| <br />
|-<br />
| Магнитрое поле в детекторе<br />
| <math>6\ T</math><br />
| <br />
|-<br />
| Характерное разделение пи/мю<br />
| <math>5\sigma</math><br />
| <br />
|-<br />
| Характерное разделение K/пи<br />
| <math>>5\sigma</math><br />
| <br />
|-<br />
|}<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Annual Review of Nuclear and Particle Science Vol. 53:431-499 (Volume publication date December 2003)]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-28T12:27:27Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Annual Review of Nuclear and Particle Science Vol. 53:431-499 (Volume publication date December 2003)]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
** G. Burdman, E. Golowich, J. Hewett, and S. Pakvasa, Rare charm decays in the standard model and beyond, [https://doi.org/10.1103/PhysRevD.66.014009 Phys. Rev. D 66, 014009 – Published 29 July 2002]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-28T12:24:39Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* G. Burdman and I. Shipsey, D^0-\bar{D^0} Mixing and Rare Charm Decays, [https://doi.org/10.1146/annurev.nucl.53.041002.110348 Annual Review of Nuclear and Particle Science Vol. 53:431-499 (Volume publication date December 2003)]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-28T12:06:56Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, P. Singer, and J. Zupan, Rare decay D0 -> γγ [https://doi.org/10.1103/PhysRevD.64.074008 Phys. Rev. D 64, 074008 – Published 4 September 2001]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CREMLINplusCREMLINplus2021-07-28T10:51:00Z<p>V.S.Vorobev: /* 1st Periodic Reporting (M1-M18) */</p>
<hr />
<div>[[File:Cpluslogo.png|300px]]<br />
<br />
= WP5: Joint technology development around SCT and future lepton colliders =<br />
<br />
== 1st Periodic Reporting (M1-M18) ==<br />
<br />
* '''Materials'''<br />
** [[Media:210408_Financial_workshop-CREMLINplus.pdf|Slides from financial workshop]]<br />
** [http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/amga/h2020-amga_en.pdf “Annotated Model Grand Agreement” (AGA) of the EC] (page 45ff)<br />
** [[Media:CREMLINplus_WP5-SCT.pdf|WP5 description]]<br />
<br />
* '''Drafts & Deadlines''':<br />
** WP5:<br />
*** WP5 Technical Report ([[:Media:CREMLINplus_Technical_Report_P1_WP5-SCT_final.docx|docx]], [[:Media:CREMLINplus_Technical_Report_P1_WP5-SCT_final.pdf|pdf]]): '''06.08.2021'''<br />
*** D5.1. Status report on the software for the SCT detector ([[:Media:D5.1_status_report_software_for_SCT_detector_ks.docx|docx]], [[:Media:D5.1_status_report_software_for_SCT_detector_ks.pdf|pdf]]) '''Friday: 23.07.2021'''<br />
*** Delay explanation for MS27. Kick-off meeting of international collaboration around the SCT detector ([[:Media:DelayMS27_international_collaboration_SCT_detector.docx|docx]], [[:Media:DelayMS27_international_collaboration_SCT_detector_final.pdf|pdf]]): '''Wednesday, 28.07.2021'''<br />
**** Draft SCT Memorandum of Partnership ([[:Media:SCT_Memorandum_of_Partnership.pdf|pdf]])<br />
*** MS26. Release of the software framework for SCT detector([[:Media:MS26_software_framework_for_SCT_detector_final.pdf|pdf]], [[:Media:MS26_software_framework_for_SCT_detector_final.docx|docx]]): '''Wednesday, 28.07.2021'''<br />
** Beneficiaries:<br />
*** Technical Report - Questionnaire for beneficiaries ([https://www.dropbox.com/s/n3spni6xe3ys212/Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report_WP5.xlsx?dl=0 draft document]): '''13.08.2021'''<br />
*** Financial Statement: '''15.09.2021'''<br />
<br />
* '''Templates'''<br />
** [[Media:CREMLINplus_Technical_Report_P1_WP5-SCT.docx| WP5 Technical Report]]<br />
** [[Media:Timesheets_2019_H2020_MASTER_100%_Example_Cremlinplus_.xlsm|Timesheets]]<br />
** [[Media:Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report.xlsx|Questionnaire for beneficiaries]]<br />
** [[Media:D5.1_status_report_software_for_SCT_detector.docx|D5.1 Status report software for SCT detector]]<br />
** [[Media:MS26_software_framework_for_SCT_detector.docx|M5.1 Software framework for SCT detector]]<br />
** [[Media:MS27_international_collaboration_SCT_detector.docx|M5.2 International collaboration around SCT detector]]<br />
<br />
== WP5 Partners ==<br />
* [http://www.inp.nsk.su/budker-institute-of-nuclear-physics BINP]<br />
* [http://www.cern.ch CERN]<br />
* [http://home.infn.it/en/ INFN]<br />
* [http://www.uni-giessen.de/index.html JLU Giessen]<br />
* [https://www.lal.in2p3.fr/en/ IJCLab Orsay]<br />
<br />
== Documents ==<br />
* [[:Media:CREMLINplus-WP5-06022019.docx| WP5 Description (docx)]]<br />
* [[CREMLINplus_budget| WP5 budget (access restricted)]]<br />
* [https://docs.google.com/spreadsheets/d/1mL3wJfHmeB6IUUAEAixKF9531CVgEmZZiyXnSHrwyrw/edit?usp=sharing| WP5 M1-M12 timetable (version 1)]<br />
=== Templates ===<br />
* [[:Media:CREMLINplus_agenda_template.docx| Cplus agenda template (docx)]]<br />
* [[:Media:CREMLINplus_deliverable_template.docx| Cplus deliverable template (docx)]]<br />
* [[:Media:CREMLINplus_milestone_template.docx| Cplus milestone template (docx)]]<br />
<br />
== WP5 Tasks ==<br />
* [[WP5 Task1]]. Fostering internationalization and visibility of the SCT project, support of outreach activities related to SCT<br />
** Partners involved: BINP, CERN, INFN<br />
** Task leader: Vitaly Vorobyev (BINP)<br />
* [[WP5 Task2]]. Development of collider technologies and fostering synergy between SCT, CLIC, and FCC-ee collider projects<br />
** Partners involved: CERN, BINP, LAL<br />
** Task co-leader: Anton Bogomyagkov (BINP), Walid Kaabi (IJCLab), Aleksandr Starostenko (BINP)<br />
* [[WP5 Task3]]. Development of software for the design of an SCT detector<br />
** Partners involved: BINP, CERN<br />
** Task co-leader: Andrey Suharev (BINP), Andre Sailer (CERN)<br />
* [[WP5 Task4]]. Development and design of Inner Tracker for the SCT detector<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Giovanni Bencivenni (INFN LNF), Lev Shekhtman (BINP)<br />
* [[WP5 Task5]]. Development and design of Central Tracker for the SCT detector (BINP, INFN)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Franco Grancagnolo (INFN Lecce), Ivan Logashenko (BINP)<br />
* [[WP5 Task6]]. Development and design of Particle Identification system for the SCT detector (BINP, JLU)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Mustafa Schmidt (JLU), Alexander Barnyakov (BINP)<br />
<br />
== WP5 meetings ==<br />
<br />
* [https://indico.cern.ch/event/851809/ September 27th, 2019 meeting]<br />
* February 20, 2020 WP5 meeting at [[CREMLINplus kick-off]]<br />
* [https://indico.inp.nsk.su/event/37/ September 28-29, 2020 meeting]<br />
<br />
== sct-cremlinplus@inp.nsk.su ==<br />
* [[List of subscribers]] (Not public)<br />
<br />
<br />
[[Category:CREMLINplus]]<br />
--[[User:V.S.Vorobev|V.S.Vorobev]] ([[User talk:V.S.Vorobev|talk]]) 12:19, 4 October 2019 (+07)<br />
<br />
= WP7 Task 7.4: [[Detector_school_CREMLINplus|Detector technology school for young scientists]] =</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CREMLINplusCREMLINplus2021-07-28T10:50:27Z<p>V.S.Vorobev: /* 1st Periodic Reporting (M1-M18) */</p>
<hr />
<div>[[File:Cpluslogo.png|300px]]<br />
<br />
= WP5: Joint technology development around SCT and future lepton colliders =<br />
<br />
== 1st Periodic Reporting (M1-M18) ==<br />
<br />
* '''Materials'''<br />
** [[Media:210408_Financial_workshop-CREMLINplus.pdf|Slides from financial workshop]]<br />
** [http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/amga/h2020-amga_en.pdf “Annotated Model Grand Agreement” (AGA) of the EC] (page 45ff)<br />
** [[Media:CREMLINplus_WP5-SCT.pdf|WP5 description]]<br />
<br />
* '''Drafts & Deadlines''':<br />
** WP5:<br />
*** WP5 Technical Report ([[:Media:CREMLINplus_Technical_Report_P1_WP5-SCT_final.docx|docx]], [[:Media:CREMLINplus_Technical_Report_P1_WP5-SCT_final.pdf|pdf]]): '''6 August'''<br />
*** D5.1. Status report on the software for the SCT detector ([[:Media:D5.1_status_report_software_for_SCT_detector_ks.docx|docx]], [[:Media:D5.1_status_report_software_for_SCT_detector_ks.pdf|pdf]]) '''Friday: 23.07.2021'''<br />
*** Delay explanation for MS27. Kick-off meeting of international collaboration around the SCT detector ([[:Media:DelayMS27_international_collaboration_SCT_detector.docx|docx]], [[:Media:DelayMS27_international_collaboration_SCT_detector_final.pdf|pdf]]): '''Wednesday, 28.07.2021'''<br />
**** Draft SCT Memorandum of Partnership ([[:Media:SCT_Memorandum_of_Partnership.pdf|pdf]])<br />
*** MS26. Release of the software framework for SCT detector([[:Media:MS26_software_framework_for_SCT_detector_final.pdf|pdf]], [[:Media:MS26_software_framework_for_SCT_detector_final.docx|docx]]): '''Wednesday, 28.07.2021'''<br />
** Beneficiaries:<br />
*** Technical Report - Questionnaire for beneficiaries ([https://www.dropbox.com/s/n3spni6xe3ys212/Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report_WP5.xlsx?dl=0 draft document]): '''13 August'''<br />
*** Financial Statement: '''15 September'''<br />
<br />
* '''Templates'''<br />
** [[Media:CREMLINplus_Technical_Report_P1_WP5-SCT.docx| WP5 Technical Report]]<br />
** [[Media:Timesheets_2019_H2020_MASTER_100%_Example_Cremlinplus_.xlsm|Timesheets]]<br />
** [[Media:Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report.xlsx|Questionnaire for beneficiaries]]<br />
** [[Media:D5.1_status_report_software_for_SCT_detector.docx|D5.1 Status report software for SCT detector]]<br />
** [[Media:MS26_software_framework_for_SCT_detector.docx|M5.1 Software framework for SCT detector]]<br />
** [[Media:MS27_international_collaboration_SCT_detector.docx|M5.2 International collaboration around SCT detector]]<br />
<br />
== WP5 Partners ==<br />
* [http://www.inp.nsk.su/budker-institute-of-nuclear-physics BINP]<br />
* [http://www.cern.ch CERN]<br />
* [http://home.infn.it/en/ INFN]<br />
* [http://www.uni-giessen.de/index.html JLU Giessen]<br />
* [https://www.lal.in2p3.fr/en/ IJCLab Orsay]<br />
<br />
== Documents ==<br />
* [[:Media:CREMLINplus-WP5-06022019.docx| WP5 Description (docx)]]<br />
* [[CREMLINplus_budget| WP5 budget (access restricted)]]<br />
* [https://docs.google.com/spreadsheets/d/1mL3wJfHmeB6IUUAEAixKF9531CVgEmZZiyXnSHrwyrw/edit?usp=sharing| WP5 M1-M12 timetable (version 1)]<br />
=== Templates ===<br />
* [[:Media:CREMLINplus_agenda_template.docx| Cplus agenda template (docx)]]<br />
* [[:Media:CREMLINplus_deliverable_template.docx| Cplus deliverable template (docx)]]<br />
* [[:Media:CREMLINplus_milestone_template.docx| Cplus milestone template (docx)]]<br />
<br />
== WP5 Tasks ==<br />
* [[WP5 Task1]]. Fostering internationalization and visibility of the SCT project, support of outreach activities related to SCT<br />
** Partners involved: BINP, CERN, INFN<br />
** Task leader: Vitaly Vorobyev (BINP)<br />
* [[WP5 Task2]]. Development of collider technologies and fostering synergy between SCT, CLIC, and FCC-ee collider projects<br />
** Partners involved: CERN, BINP, LAL<br />
** Task co-leader: Anton Bogomyagkov (BINP), Walid Kaabi (IJCLab), Aleksandr Starostenko (BINP)<br />
* [[WP5 Task3]]. Development of software for the design of an SCT detector<br />
** Partners involved: BINP, CERN<br />
** Task co-leader: Andrey Suharev (BINP), Andre Sailer (CERN)<br />
* [[WP5 Task4]]. Development and design of Inner Tracker for the SCT detector<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Giovanni Bencivenni (INFN LNF), Lev Shekhtman (BINP)<br />
* [[WP5 Task5]]. Development and design of Central Tracker for the SCT detector (BINP, INFN)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Franco Grancagnolo (INFN Lecce), Ivan Logashenko (BINP)<br />
* [[WP5 Task6]]. Development and design of Particle Identification system for the SCT detector (BINP, JLU)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Mustafa Schmidt (JLU), Alexander Barnyakov (BINP)<br />
<br />
== WP5 meetings ==<br />
<br />
* [https://indico.cern.ch/event/851809/ September 27th, 2019 meeting]<br />
* February 20, 2020 WP5 meeting at [[CREMLINplus kick-off]]<br />
* [https://indico.inp.nsk.su/event/37/ September 28-29, 2020 meeting]<br />
<br />
== sct-cremlinplus@inp.nsk.su ==<br />
* [[List of subscribers]] (Not public)<br />
<br />
<br />
[[Category:CREMLINplus]]<br />
--[[User:V.S.Vorobev|V.S.Vorobev]] ([[User talk:V.S.Vorobev|talk]]) 12:19, 4 October 2019 (+07)<br />
<br />
= WP7 Task 7.4: [[Detector_school_CREMLINplus|Detector technology school for young scientists]] =</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CREMLINplusCREMLINplus2021-07-28T10:50:20Z<p>V.S.Vorobev: /* 1st Periodic Reporting (M1-M18) */</p>
<hr />
<div>[[File:Cpluslogo.png|300px]]<br />
<br />
= WP5: Joint technology development around SCT and future lepton colliders =<br />
<br />
== 1st Periodic Reporting (M1-M18) ==<br />
<br />
* '''Materials'''<br />
** [[Media:210408_Financial_workshop-CREMLINplus.pdf|Slides from financial workshop]]<br />
** [http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/amga/h2020-amga_en.pdf “Annotated Model Grand Agreement” (AGA) of the EC] (page 45ff)<br />
** [[Media:CREMLINplus_WP5-SCT.pdf|WP5 description]]<br />
<br />
* '''Drafts & Deadlines''':<br />
** WP5:<br />
*** WP5 Technical Report ([[:Media:CREMLINplus_Technical_Report_P1_WP5-SCT_final.docx|docx]], [[:Media:CREMLINplus_Technical_Report_P1_WP5-SCT_final.pdf|pdf]]): '''6 August'''<br />
*** D5.1. Status report on the software for the SCT detector ([[:Media:D5.1_status_report_software_for_SCT_detector_ks.docx|docx]], [[:Media:D5.1_status_report_software_for_SCT_detector_ks.pdf|pdf]]) '''Friday: 23.07.2021'''<br />
**** [[:Media:Cremlinplus_18month_report_plfernan.docx|Input from CERN]]<br />
*** Delay explanation for MS27. Kick-off meeting of international collaboration around the SCT detector ([[:Media:DelayMS27_international_collaboration_SCT_detector.docx|docx]], [[:Media:DelayMS27_international_collaboration_SCT_detector_final.pdf|pdf]]): '''Wednesday, 28.07.2021'''<br />
**** Draft SCT Memorandum of Partnership ([[:Media:SCT_Memorandum_of_Partnership.pdf|pdf]])<br />
*** MS26. Release of the software framework for SCT detector([[:Media:MS26_software_framework_for_SCT_detector_final.pdf|pdf]], [[:Media:MS26_software_framework_for_SCT_detector_final.docx|docx]]): '''Wednesday, 28.07.2021'''<br />
** Beneficiaries:<br />
*** Technical Report - Questionnaire for beneficiaries ([https://www.dropbox.com/s/n3spni6xe3ys212/Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report_WP5.xlsx?dl=0 draft document]): '''13 August'''<br />
*** Financial Statement: '''15 September'''<br />
<br />
* '''Templates'''<br />
** [[Media:CREMLINplus_Technical_Report_P1_WP5-SCT.docx| WP5 Technical Report]]<br />
** [[Media:Timesheets_2019_H2020_MASTER_100%_Example_Cremlinplus_.xlsm|Timesheets]]<br />
** [[Media:Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report.xlsx|Questionnaire for beneficiaries]]<br />
** [[Media:D5.1_status_report_software_for_SCT_detector.docx|D5.1 Status report software for SCT detector]]<br />
** [[Media:MS26_software_framework_for_SCT_detector.docx|M5.1 Software framework for SCT detector]]<br />
** [[Media:MS27_international_collaboration_SCT_detector.docx|M5.2 International collaboration around SCT detector]]<br />
<br />
== WP5 Partners ==<br />
* [http://www.inp.nsk.su/budker-institute-of-nuclear-physics BINP]<br />
* [http://www.cern.ch CERN]<br />
* [http://home.infn.it/en/ INFN]<br />
* [http://www.uni-giessen.de/index.html JLU Giessen]<br />
* [https://www.lal.in2p3.fr/en/ IJCLab Orsay]<br />
<br />
== Documents ==<br />
* [[:Media:CREMLINplus-WP5-06022019.docx| WP5 Description (docx)]]<br />
* [[CREMLINplus_budget| WP5 budget (access restricted)]]<br />
* [https://docs.google.com/spreadsheets/d/1mL3wJfHmeB6IUUAEAixKF9531CVgEmZZiyXnSHrwyrw/edit?usp=sharing| WP5 M1-M12 timetable (version 1)]<br />
=== Templates ===<br />
* [[:Media:CREMLINplus_agenda_template.docx| Cplus agenda template (docx)]]<br />
* [[:Media:CREMLINplus_deliverable_template.docx| Cplus deliverable template (docx)]]<br />
* [[:Media:CREMLINplus_milestone_template.docx| Cplus milestone template (docx)]]<br />
<br />
== WP5 Tasks ==<br />
* [[WP5 Task1]]. Fostering internationalization and visibility of the SCT project, support of outreach activities related to SCT<br />
** Partners involved: BINP, CERN, INFN<br />
** Task leader: Vitaly Vorobyev (BINP)<br />
* [[WP5 Task2]]. Development of collider technologies and fostering synergy between SCT, CLIC, and FCC-ee collider projects<br />
** Partners involved: CERN, BINP, LAL<br />
** Task co-leader: Anton Bogomyagkov (BINP), Walid Kaabi (IJCLab), Aleksandr Starostenko (BINP)<br />
* [[WP5 Task3]]. Development of software for the design of an SCT detector<br />
** Partners involved: BINP, CERN<br />
** Task co-leader: Andrey Suharev (BINP), Andre Sailer (CERN)<br />
* [[WP5 Task4]]. Development and design of Inner Tracker for the SCT detector<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Giovanni Bencivenni (INFN LNF), Lev Shekhtman (BINP)<br />
* [[WP5 Task5]]. Development and design of Central Tracker for the SCT detector (BINP, INFN)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Franco Grancagnolo (INFN Lecce), Ivan Logashenko (BINP)<br />
* [[WP5 Task6]]. Development and design of Particle Identification system for the SCT detector (BINP, JLU)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Mustafa Schmidt (JLU), Alexander Barnyakov (BINP)<br />
<br />
== WP5 meetings ==<br />
<br />
* [https://indico.cern.ch/event/851809/ September 27th, 2019 meeting]<br />
* February 20, 2020 WP5 meeting at [[CREMLINplus kick-off]]<br />
* [https://indico.inp.nsk.su/event/37/ September 28-29, 2020 meeting]<br />
<br />
== sct-cremlinplus@inp.nsk.su ==<br />
* [[List of subscribers]] (Not public)<br />
<br />
<br />
[[Category:CREMLINplus]]<br />
--[[User:V.S.Vorobev|V.S.Vorobev]] ([[User talk:V.S.Vorobev|talk]]) 12:19, 4 October 2019 (+07)<br />
<br />
= WP7 Task 7.4: [[Detector_school_CREMLINplus|Detector technology school for young scientists]] =</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CREMLINplusCREMLINplus2021-07-28T10:50:06Z<p>V.S.Vorobev: /* 1st Periodic Reporting (M1-M18) */</p>
<hr />
<div>[[File:Cpluslogo.png|300px]]<br />
<br />
= WP5: Joint technology development around SCT and future lepton colliders =<br />
<br />
== 1st Periodic Reporting (M1-M18) ==<br />
<br />
* '''Materials'''<br />
** [[Media:210408_Financial_workshop-CREMLINplus.pdf|Slides from financial workshop]]<br />
** [http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/amga/h2020-amga_en.pdf “Annotated Model Grand Agreement” (AGA) of the EC] (page 45ff)<br />
** [[Media:CREMLINplus_WP5-SCT.pdf|WP5 description]]<br />
<br />
* '''Drafts & Deadlines''':<br />
** WP5:<br />
*** WP5 Technical Report ([[:Media:CREMLINplus_Technical_Report_P1_WP5-SCT_final.docx|docx]], [[:Media:CREMLINplus_Technical_Report_P1_WP5-SCT_final.pdf|pdf]]): '''6 August'''<br />
**** [[:Media:Report_ALevichev.docx|Input by Alexey Levichev]]<br />
**** [[:Media:FrancoM1M18.docx|Input by Franco Grancagnolo]]<br />
**** [[:Media:CREMLINplus_TechReport_task5-4.docx|Input for task 5.4]]<br />
*** D5.1. Status report on the software for the SCT detector ([[:Media:D5.1_status_report_software_for_SCT_detector_ks.docx|docx]], [[:Media:D5.1_status_report_software_for_SCT_detector_ks.pdf|pdf]]) '''Friday: 23.07.2021'''<br />
**** [[:Media:Cremlinplus_18month_report_plfernan.docx|Input from CERN]]<br />
*** Delay explanation for MS27. Kick-off meeting of international collaboration around the SCT detector ([[:Media:DelayMS27_international_collaboration_SCT_detector.docx|docx]], [[:Media:DelayMS27_international_collaboration_SCT_detector_final.pdf|pdf]]): '''Wednesday, 28.07.2021'''<br />
**** Draft SCT Memorandum of Partnership ([[:Media:SCT_Memorandum_of_Partnership.pdf|pdf]])<br />
*** MS26. Release of the software framework for SCT detector([[:Media:MS26_software_framework_for_SCT_detector_final.pdf|pdf]], [[:Media:MS26_software_framework_for_SCT_detector_final.docx|docx]]): '''Wednesday, 28.07.2021'''<br />
** Beneficiaries:<br />
*** Technical Report - Questionnaire for beneficiaries ([https://www.dropbox.com/s/n3spni6xe3ys212/Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report_WP5.xlsx?dl=0 draft document]): '''13 August'''<br />
*** Financial Statement: '''15 September'''<br />
<br />
* '''Templates'''<br />
** [[Media:CREMLINplus_Technical_Report_P1_WP5-SCT.docx| WP5 Technical Report]]<br />
** [[Media:Timesheets_2019_H2020_MASTER_100%_Example_Cremlinplus_.xlsm|Timesheets]]<br />
** [[Media:Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report.xlsx|Questionnaire for beneficiaries]]<br />
** [[Media:D5.1_status_report_software_for_SCT_detector.docx|D5.1 Status report software for SCT detector]]<br />
** [[Media:MS26_software_framework_for_SCT_detector.docx|M5.1 Software framework for SCT detector]]<br />
** [[Media:MS27_international_collaboration_SCT_detector.docx|M5.2 International collaboration around SCT detector]]<br />
<br />
== WP5 Partners ==<br />
* [http://www.inp.nsk.su/budker-institute-of-nuclear-physics BINP]<br />
* [http://www.cern.ch CERN]<br />
* [http://home.infn.it/en/ INFN]<br />
* [http://www.uni-giessen.de/index.html JLU Giessen]<br />
* [https://www.lal.in2p3.fr/en/ IJCLab Orsay]<br />
<br />
== Documents ==<br />
* [[:Media:CREMLINplus-WP5-06022019.docx| WP5 Description (docx)]]<br />
* [[CREMLINplus_budget| WP5 budget (access restricted)]]<br />
* [https://docs.google.com/spreadsheets/d/1mL3wJfHmeB6IUUAEAixKF9531CVgEmZZiyXnSHrwyrw/edit?usp=sharing| WP5 M1-M12 timetable (version 1)]<br />
=== Templates ===<br />
* [[:Media:CREMLINplus_agenda_template.docx| Cplus agenda template (docx)]]<br />
* [[:Media:CREMLINplus_deliverable_template.docx| Cplus deliverable template (docx)]]<br />
* [[:Media:CREMLINplus_milestone_template.docx| Cplus milestone template (docx)]]<br />
<br />
== WP5 Tasks ==<br />
* [[WP5 Task1]]. Fostering internationalization and visibility of the SCT project, support of outreach activities related to SCT<br />
** Partners involved: BINP, CERN, INFN<br />
** Task leader: Vitaly Vorobyev (BINP)<br />
* [[WP5 Task2]]. Development of collider technologies and fostering synergy between SCT, CLIC, and FCC-ee collider projects<br />
** Partners involved: CERN, BINP, LAL<br />
** Task co-leader: Anton Bogomyagkov (BINP), Walid Kaabi (IJCLab), Aleksandr Starostenko (BINP)<br />
* [[WP5 Task3]]. Development of software for the design of an SCT detector<br />
** Partners involved: BINP, CERN<br />
** Task co-leader: Andrey Suharev (BINP), Andre Sailer (CERN)<br />
* [[WP5 Task4]]. Development and design of Inner Tracker for the SCT detector<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Giovanni Bencivenni (INFN LNF), Lev Shekhtman (BINP)<br />
* [[WP5 Task5]]. Development and design of Central Tracker for the SCT detector (BINP, INFN)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Franco Grancagnolo (INFN Lecce), Ivan Logashenko (BINP)<br />
* [[WP5 Task6]]. Development and design of Particle Identification system for the SCT detector (BINP, JLU)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Mustafa Schmidt (JLU), Alexander Barnyakov (BINP)<br />
<br />
== WP5 meetings ==<br />
<br />
* [https://indico.cern.ch/event/851809/ September 27th, 2019 meeting]<br />
* February 20, 2020 WP5 meeting at [[CREMLINplus kick-off]]<br />
* [https://indico.inp.nsk.su/event/37/ September 28-29, 2020 meeting]<br />
<br />
== sct-cremlinplus@inp.nsk.su ==<br />
* [[List of subscribers]] (Not public)<br />
<br />
<br />
[[Category:CREMLINplus]]<br />
--[[User:V.S.Vorobev|V.S.Vorobev]] ([[User talk:V.S.Vorobev|talk]]) 12:19, 4 October 2019 (+07)<br />
<br />
= WP7 Task 7.4: [[Detector_school_CREMLINplus|Detector technology school for young scientists]] =</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CREMLINplusCREMLINplus2021-07-28T10:49:48Z<p>V.S.Vorobev: /* 1st Periodic Reporting (M1-M18) */</p>
<hr />
<div>[[File:Cpluslogo.png|300px]]<br />
<br />
= WP5: Joint technology development around SCT and future lepton colliders =<br />
<br />
== 1st Periodic Reporting (M1-M18) ==<br />
<br />
* '''Materials'''<br />
** [[Media:210408_Financial_workshop-CREMLINplus.pdf|Slides from financial workshop]]<br />
** [http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/amga/h2020-amga_en.pdf “Annotated Model Grand Agreement” (AGA) of the EC] (page 45ff)<br />
** [[Media:CREMLINplus_WP5-SCT.pdf|WP5 description]]<br />
<br />
* '''Drafts & Deadlines''':<br />
** WP5:<br />
*** WP5 Technical Report ([[:Media:CREMLINplus_Technical_Report_P1_WP5-SCT_final.docx|docx]], [[:Media:CREMLINplus_Technical_Report_P1_WP5-SCT_final.pdf|pdf]]): '''6 August'''<br />
**** [[:Media:Report_ALevichev.docx|Input by Alexey Levichev]]<br />
**** [[:Media:FrancoM1M18.docx|Input by Franco Grancagnolo]]<br />
**** [[:Media:CREMLINplus_TechReport_task5-4.docx|Input for task 5.4]]<br />
*** D5.1. Status report on the software for the SCT detector (final version: [[:Media:D5.1_status_report_software_for_SCT_detector_ks.docx|docx]], [[:Media:D5.1_status_report_software_for_SCT_detector_ks.pdf|pdf]]) '''Friday: 23.07.2021'''<br />
**** [[:Media:Cremlinplus_18month_report_plfernan.docx|Input from CERN]]<br />
*** Delay explanation for MS27. Kick-off meeting of international collaboration around the SCT detector ([[:Media:DelayMS27_international_collaboration_SCT_detector.docx|docx]], [[:Media:DelayMS27_international_collaboration_SCT_detector_final.pdf|pdf]]): '''Wednesday, 28.07.2021'''<br />
**** Draft SCT Memorandum of Partnership ([[:Media:SCT_Memorandum_of_Partnership.pdf|pdf]])<br />
*** MS26. Release of the software framework for SCT detector([[:Media:MS26_software_framework_for_SCT_detector_final.pdf|pdf]], [[:Media:MS26_software_framework_for_SCT_detector_final.docx|docx]]): '''Wednesday, 28.07.2021'''<br />
** Beneficiaries:<br />
*** Technical Report - Questionnaire for beneficiaries ([https://www.dropbox.com/s/n3spni6xe3ys212/Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report_WP5.xlsx?dl=0 draft document]): '''13 August'''<br />
*** Financial Statement: '''15 September'''<br />
<br />
* '''Templates'''<br />
** [[Media:CREMLINplus_Technical_Report_P1_WP5-SCT.docx| WP5 Technical Report]]<br />
** [[Media:Timesheets_2019_H2020_MASTER_100%_Example_Cremlinplus_.xlsm|Timesheets]]<br />
** [[Media:Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report.xlsx|Questionnaire for beneficiaries]]<br />
** [[Media:D5.1_status_report_software_for_SCT_detector.docx|D5.1 Status report software for SCT detector]]<br />
** [[Media:MS26_software_framework_for_SCT_detector.docx|M5.1 Software framework for SCT detector]]<br />
** [[Media:MS27_international_collaboration_SCT_detector.docx|M5.2 International collaboration around SCT detector]]<br />
<br />
== WP5 Partners ==<br />
* [http://www.inp.nsk.su/budker-institute-of-nuclear-physics BINP]<br />
* [http://www.cern.ch CERN]<br />
* [http://home.infn.it/en/ INFN]<br />
* [http://www.uni-giessen.de/index.html JLU Giessen]<br />
* [https://www.lal.in2p3.fr/en/ IJCLab Orsay]<br />
<br />
== Documents ==<br />
* [[:Media:CREMLINplus-WP5-06022019.docx| WP5 Description (docx)]]<br />
* [[CREMLINplus_budget| WP5 budget (access restricted)]]<br />
* [https://docs.google.com/spreadsheets/d/1mL3wJfHmeB6IUUAEAixKF9531CVgEmZZiyXnSHrwyrw/edit?usp=sharing| WP5 M1-M12 timetable (version 1)]<br />
=== Templates ===<br />
* [[:Media:CREMLINplus_agenda_template.docx| Cplus agenda template (docx)]]<br />
* [[:Media:CREMLINplus_deliverable_template.docx| Cplus deliverable template (docx)]]<br />
* [[:Media:CREMLINplus_milestone_template.docx| Cplus milestone template (docx)]]<br />
<br />
== WP5 Tasks ==<br />
* [[WP5 Task1]]. Fostering internationalization and visibility of the SCT project, support of outreach activities related to SCT<br />
** Partners involved: BINP, CERN, INFN<br />
** Task leader: Vitaly Vorobyev (BINP)<br />
* [[WP5 Task2]]. Development of collider technologies and fostering synergy between SCT, CLIC, and FCC-ee collider projects<br />
** Partners involved: CERN, BINP, LAL<br />
** Task co-leader: Anton Bogomyagkov (BINP), Walid Kaabi (IJCLab), Aleksandr Starostenko (BINP)<br />
* [[WP5 Task3]]. Development of software for the design of an SCT detector<br />
** Partners involved: BINP, CERN<br />
** Task co-leader: Andrey Suharev (BINP), Andre Sailer (CERN)<br />
* [[WP5 Task4]]. Development and design of Inner Tracker for the SCT detector<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Giovanni Bencivenni (INFN LNF), Lev Shekhtman (BINP)<br />
* [[WP5 Task5]]. Development and design of Central Tracker for the SCT detector (BINP, INFN)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Franco Grancagnolo (INFN Lecce), Ivan Logashenko (BINP)<br />
* [[WP5 Task6]]. Development and design of Particle Identification system for the SCT detector (BINP, JLU)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Mustafa Schmidt (JLU), Alexander Barnyakov (BINP)<br />
<br />
== WP5 meetings ==<br />
<br />
* [https://indico.cern.ch/event/851809/ September 27th, 2019 meeting]<br />
* February 20, 2020 WP5 meeting at [[CREMLINplus kick-off]]<br />
* [https://indico.inp.nsk.su/event/37/ September 28-29, 2020 meeting]<br />
<br />
== sct-cremlinplus@inp.nsk.su ==<br />
* [[List of subscribers]] (Not public)<br />
<br />
<br />
[[Category:CREMLINplus]]<br />
--[[User:V.S.Vorobev|V.S.Vorobev]] ([[User talk:V.S.Vorobev|talk]]) 12:19, 4 October 2019 (+07)<br />
<br />
= WP7 Task 7.4: [[Detector_school_CREMLINplus|Detector technology school for young scientists]] =</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:CREMLINplus_Technical_Report_P1_WP5-SCT_final.pdfFile:CREMLINplus Technical Report P1 WP5-SCT final.pdf2021-07-28T10:49:42Z<p>V.S.Vorobev: </p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:CREMLINplus_Technical_Report_P1_WP5-SCT_final.docxFile:CREMLINplus Technical Report P1 WP5-SCT final.docx2021-07-28T10:49:05Z<p>V.S.Vorobev: </p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CREMLINplusCREMLINplus2021-07-28T10:48:46Z<p>V.S.Vorobev: /* 1st Periodic Reporting (M1-M18) */</p>
<hr />
<div>[[File:Cpluslogo.png|300px]]<br />
<br />
= WP5: Joint technology development around SCT and future lepton colliders =<br />
<br />
== 1st Periodic Reporting (M1-M18) ==<br />
<br />
* '''Materials'''<br />
** [[Media:210408_Financial_workshop-CREMLINplus.pdf|Slides from financial workshop]]<br />
** [http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/amga/h2020-amga_en.pdf “Annotated Model Grand Agreement” (AGA) of the EC] (page 45ff)<br />
** [[Media:CREMLINplus_WP5-SCT.pdf|WP5 description]]<br />
<br />
* '''Drafts & Deadlines''':<br />
** WP5:<br />
*** WP5 Technical Report ([https://www.dropbox.com/s/jp48oivop79nv1a/CREMLINplus_Technical_Report_P1_WP5-SCT.docx?dl=0 draft document]): '''6 August'''<br />
**** [[:Media:Report_ALevichev.docx|Input by Alexey Levichev]]<br />
**** [[:Media:FrancoM1M18.docx|Input by Franco Grancagnolo]]<br />
**** [[:Media:CREMLINplus_TechReport_task5-4.docx|Input for task 5.4]]<br />
*** D5.1. Status report on the software for the SCT detector (final version: [[:Media:D5.1_status_report_software_for_SCT_detector_ks.docx|docx]], [[:Media:D5.1_status_report_software_for_SCT_detector_ks.pdf|pdf]]) '''Friday: 23.07.2021'''<br />
**** [[:Media:Cremlinplus_18month_report_plfernan.docx|Input from CERN]]<br />
*** Delay explanation for MS27. Kick-off meeting of international collaboration around the SCT detector ([[:Media:DelayMS27_international_collaboration_SCT_detector.docx|docx]], [[:Media:DelayMS27_international_collaboration_SCT_detector_final.pdf|pdf]]): '''Wednesday, 28.07.2021'''<br />
**** Draft SCT Memorandum of Partnership ([[:Media:SCT_Memorandum_of_Partnership.pdf|pdf]])<br />
*** MS26. Release of the software framework for SCT detector([[:Media:MS26_software_framework_for_SCT_detector_final.pdf|pdf]], [[:Media:MS26_software_framework_for_SCT_detector_final.docx|docx]]): '''Wednesday, 28.07.2021'''<br />
** Beneficiaries:<br />
*** Technical Report - Questionnaire for beneficiaries ([https://www.dropbox.com/s/n3spni6xe3ys212/Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report_WP5.xlsx?dl=0 draft document]): '''13 August'''<br />
*** Financial Statement: '''15 September'''<br />
<br />
* '''Templates'''<br />
** [[Media:CREMLINplus_Technical_Report_P1_WP5-SCT.docx| WP5 Technical Report]]<br />
** [[Media:Timesheets_2019_H2020_MASTER_100%_Example_Cremlinplus_.xlsm|Timesheets]]<br />
** [[Media:Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report.xlsx|Questionnaire for beneficiaries]]<br />
** [[Media:D5.1_status_report_software_for_SCT_detector.docx|D5.1 Status report software for SCT detector]]<br />
** [[Media:MS26_software_framework_for_SCT_detector.docx|M5.1 Software framework for SCT detector]]<br />
** [[Media:MS27_international_collaboration_SCT_detector.docx|M5.2 International collaboration around SCT detector]]<br />
<br />
== WP5 Partners ==<br />
* [http://www.inp.nsk.su/budker-institute-of-nuclear-physics BINP]<br />
* [http://www.cern.ch CERN]<br />
* [http://home.infn.it/en/ INFN]<br />
* [http://www.uni-giessen.de/index.html JLU Giessen]<br />
* [https://www.lal.in2p3.fr/en/ IJCLab Orsay]<br />
<br />
== Documents ==<br />
* [[:Media:CREMLINplus-WP5-06022019.docx| WP5 Description (docx)]]<br />
* [[CREMLINplus_budget| WP5 budget (access restricted)]]<br />
* [https://docs.google.com/spreadsheets/d/1mL3wJfHmeB6IUUAEAixKF9531CVgEmZZiyXnSHrwyrw/edit?usp=sharing| WP5 M1-M12 timetable (version 1)]<br />
=== Templates ===<br />
* [[:Media:CREMLINplus_agenda_template.docx| Cplus agenda template (docx)]]<br />
* [[:Media:CREMLINplus_deliverable_template.docx| Cplus deliverable template (docx)]]<br />
* [[:Media:CREMLINplus_milestone_template.docx| Cplus milestone template (docx)]]<br />
<br />
== WP5 Tasks ==<br />
* [[WP5 Task1]]. Fostering internationalization and visibility of the SCT project, support of outreach activities related to SCT<br />
** Partners involved: BINP, CERN, INFN<br />
** Task leader: Vitaly Vorobyev (BINP)<br />
* [[WP5 Task2]]. Development of collider technologies and fostering synergy between SCT, CLIC, and FCC-ee collider projects<br />
** Partners involved: CERN, BINP, LAL<br />
** Task co-leader: Anton Bogomyagkov (BINP), Walid Kaabi (IJCLab), Aleksandr Starostenko (BINP)<br />
* [[WP5 Task3]]. Development of software for the design of an SCT detector<br />
** Partners involved: BINP, CERN<br />
** Task co-leader: Andrey Suharev (BINP), Andre Sailer (CERN)<br />
* [[WP5 Task4]]. Development and design of Inner Tracker for the SCT detector<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Giovanni Bencivenni (INFN LNF), Lev Shekhtman (BINP)<br />
* [[WP5 Task5]]. Development and design of Central Tracker for the SCT detector (BINP, INFN)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Franco Grancagnolo (INFN Lecce), Ivan Logashenko (BINP)<br />
* [[WP5 Task6]]. Development and design of Particle Identification system for the SCT detector (BINP, JLU)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Mustafa Schmidt (JLU), Alexander Barnyakov (BINP)<br />
<br />
== WP5 meetings ==<br />
<br />
* [https://indico.cern.ch/event/851809/ September 27th, 2019 meeting]<br />
* February 20, 2020 WP5 meeting at [[CREMLINplus kick-off]]<br />
* [https://indico.inp.nsk.su/event/37/ September 28-29, 2020 meeting]<br />
<br />
== sct-cremlinplus@inp.nsk.su ==<br />
* [[List of subscribers]] (Not public)<br />
<br />
<br />
[[Category:CREMLINplus]]<br />
--[[User:V.S.Vorobev|V.S.Vorobev]] ([[User talk:V.S.Vorobev|talk]]) 12:19, 4 October 2019 (+07)<br />
<br />
= WP7 Task 7.4: [[Detector_school_CREMLINplus|Detector technology school for young scientists]] =</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:MS26_software_framework_for_SCT_detector_final.docxFile:MS26 software framework for SCT detector final.docx2021-07-28T10:48:40Z<p>V.S.Vorobev: </p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:MS26_software_framework_for_SCT_detector_final.pdfFile:MS26 software framework for SCT detector final.pdf2021-07-28T10:47:56Z<p>V.S.Vorobev: </p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:SCT_Memorandum_of_Partnership.pdfFile:SCT Memorandum of Partnership.pdf2021-07-28T10:46:17Z<p>V.S.Vorobev: </p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CREMLINplusCREMLINplus2021-07-28T10:45:49Z<p>V.S.Vorobev: /* 1st Periodic Reporting (M1-M18) */</p>
<hr />
<div>[[File:Cpluslogo.png|300px]]<br />
<br />
= WP5: Joint technology development around SCT and future lepton colliders =<br />
<br />
== 1st Periodic Reporting (M1-M18) ==<br />
<br />
* '''Materials'''<br />
** [[Media:210408_Financial_workshop-CREMLINplus.pdf|Slides from financial workshop]]<br />
** [http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/amga/h2020-amga_en.pdf “Annotated Model Grand Agreement” (AGA) of the EC] (page 45ff)<br />
** [[Media:CREMLINplus_WP5-SCT.pdf|WP5 description]]<br />
<br />
* '''Drafts & Deadlines''':<br />
** WP5:<br />
*** WP5 Technical Report ([https://www.dropbox.com/s/jp48oivop79nv1a/CREMLINplus_Technical_Report_P1_WP5-SCT.docx?dl=0 draft document]): '''6 August'''<br />
**** [[:Media:Report_ALevichev.docx|Input by Alexey Levichev]]<br />
**** [[:Media:FrancoM1M18.docx|Input by Franco Grancagnolo]]<br />
**** [[:Media:CREMLINplus_TechReport_task5-4.docx|Input for task 5.4]]<br />
*** D5.1. Status report on the software for the SCT detector (final version: [[:Media:D5.1_status_report_software_for_SCT_detector_ks.docx|docx]], [[:Media:D5.1_status_report_software_for_SCT_detector_ks.pdf|pdf]]) '''Friday: 23.07.2021'''<br />
**** [[:Media:Cremlinplus_18month_report_plfernan.docx|Input from CERN]]<br />
*** Delay explanation for MS27. Kick-off meeting of international collaboration around the SCT detector ([[:Media:DelayMS27_international_collaboration_SCT_detector.docx|docx]], [[:Media:DelayMS27_international_collaboration_SCT_detector_final.pdf|pdf]]): '''Wednesday, 28.07.2021'''<br />
**** [https://www.overleaf.com/read/jntqtvfhkdqf Draft of Memorandum of partnership (MoP) for SCT Detector and Physics]<br />
*** MS26. Release of the software framework for SCT detector([https://www.dropbox.com/s/slo6pwcr4cigcf2/MS26_software_framework_for_SCT_detector.docx?dl=0 draft document]): '''Wednesday, 28.07.2021'''<br />
** Beneficiaries:<br />
*** Technical Report - Questionnaire for beneficiaries ([https://www.dropbox.com/s/n3spni6xe3ys212/Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report_WP5.xlsx?dl=0 draft document]): '''13 August'''<br />
*** Financial Statement: '''15 September'''<br />
<br />
* '''Templates'''<br />
** [[Media:CREMLINplus_Technical_Report_P1_WP5-SCT.docx| WP5 Technical Report]]<br />
** [[Media:Timesheets_2019_H2020_MASTER_100%_Example_Cremlinplus_.xlsm|Timesheets]]<br />
** [[Media:Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report.xlsx|Questionnaire for beneficiaries]]<br />
** [[Media:D5.1_status_report_software_for_SCT_detector.docx|D5.1 Status report software for SCT detector]]<br />
** [[Media:MS26_software_framework_for_SCT_detector.docx|M5.1 Software framework for SCT detector]]<br />
** [[Media:MS27_international_collaboration_SCT_detector.docx|M5.2 International collaboration around SCT detector]]<br />
<br />
== WP5 Partners ==<br />
* [http://www.inp.nsk.su/budker-institute-of-nuclear-physics BINP]<br />
* [http://www.cern.ch CERN]<br />
* [http://home.infn.it/en/ INFN]<br />
* [http://www.uni-giessen.de/index.html JLU Giessen]<br />
* [https://www.lal.in2p3.fr/en/ IJCLab Orsay]<br />
<br />
== Documents ==<br />
* [[:Media:CREMLINplus-WP5-06022019.docx| WP5 Description (docx)]]<br />
* [[CREMLINplus_budget| WP5 budget (access restricted)]]<br />
* [https://docs.google.com/spreadsheets/d/1mL3wJfHmeB6IUUAEAixKF9531CVgEmZZiyXnSHrwyrw/edit?usp=sharing| WP5 M1-M12 timetable (version 1)]<br />
=== Templates ===<br />
* [[:Media:CREMLINplus_agenda_template.docx| Cplus agenda template (docx)]]<br />
* [[:Media:CREMLINplus_deliverable_template.docx| Cplus deliverable template (docx)]]<br />
* [[:Media:CREMLINplus_milestone_template.docx| Cplus milestone template (docx)]]<br />
<br />
== WP5 Tasks ==<br />
* [[WP5 Task1]]. Fostering internationalization and visibility of the SCT project, support of outreach activities related to SCT<br />
** Partners involved: BINP, CERN, INFN<br />
** Task leader: Vitaly Vorobyev (BINP)<br />
* [[WP5 Task2]]. Development of collider technologies and fostering synergy between SCT, CLIC, and FCC-ee collider projects<br />
** Partners involved: CERN, BINP, LAL<br />
** Task co-leader: Anton Bogomyagkov (BINP), Walid Kaabi (IJCLab), Aleksandr Starostenko (BINP)<br />
* [[WP5 Task3]]. Development of software for the design of an SCT detector<br />
** Partners involved: BINP, CERN<br />
** Task co-leader: Andrey Suharev (BINP), Andre Sailer (CERN)<br />
* [[WP5 Task4]]. Development and design of Inner Tracker for the SCT detector<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Giovanni Bencivenni (INFN LNF), Lev Shekhtman (BINP)<br />
* [[WP5 Task5]]. Development and design of Central Tracker for the SCT detector (BINP, INFN)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Franco Grancagnolo (INFN Lecce), Ivan Logashenko (BINP)<br />
* [[WP5 Task6]]. Development and design of Particle Identification system for the SCT detector (BINP, JLU)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Mustafa Schmidt (JLU), Alexander Barnyakov (BINP)<br />
<br />
== WP5 meetings ==<br />
<br />
* [https://indico.cern.ch/event/851809/ September 27th, 2019 meeting]<br />
* February 20, 2020 WP5 meeting at [[CREMLINplus kick-off]]<br />
* [https://indico.inp.nsk.su/event/37/ September 28-29, 2020 meeting]<br />
<br />
== sct-cremlinplus@inp.nsk.su ==<br />
* [[List of subscribers]] (Not public)<br />
<br />
<br />
[[Category:CREMLINplus]]<br />
--[[User:V.S.Vorobev|V.S.Vorobev]] ([[User talk:V.S.Vorobev|talk]]) 12:19, 4 October 2019 (+07)<br />
<br />
= WP7 Task 7.4: [[Detector_school_CREMLINplus|Detector technology school for young scientists]] =</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:DelayMS27_international_collaboration_SCT_detector_final.pdfFile:DelayMS27 international collaboration SCT detector final.pdf2021-07-28T10:45:31Z<p>V.S.Vorobev: </p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:DelayMS27_international_collaboration_SCT_detector.docxFile:DelayMS27 international collaboration SCT detector.docx2021-07-28T10:45:19Z<p>V.S.Vorobev: </p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-28T04:57:31Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovgek, P. Singer, Long distance contributions in D → Vγ decays, [https://doi.org/10.1007/s100529800914 EPJ C volume 6, pages 471–476 (1999)]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-28T04:07:57Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, S. Prelovsek, P. Singer, and D. Wyler, A Possible Arena for Searching New Physics - the Γ(D^0 \to ρ^0 γ)/Γ(D^0 \to ωγ) Ratio, [https://doi.org/10.1016/S0370-2693(00)00731-0 Physics Letters B Volume 487, Issues 1–2, 10 August 2000, Pages 81-86]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-28T03:17:33Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://doi.org/10.1007/JHEP06(2021)155 Journal of High Energy Physics volume 2021, Article number: 155 (2021)]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-28T03:16:22Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Cabibbo allowed D -> Kπγ decays, [https://doi.org/10.1103/PhysRevD.66.074002 Phys. Rev. D 66, 074002 – Published 1 October 2002]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, Charm radiative decays with neutral mesons, [https://doi.org/10.1016/S0370-2693(02)02964-7 Physics Letters B Volume 550, Issues 1–2, 12 December 2002, Pages 77-84]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://arxiv.org/abs/2104.08287 arXiv:2104.08287 [hep-ph]]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-28T03:15:22Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* Radiative decays<br />
** M. B. Wise, Chiral perturbation theory for hadrons containing a heavy quark, [https://doi.org/10.1103/PhysRevD.45.R2188 Phys. Rev. D 45, R2188(R) – Published 1 April 1992]<br />
** B. Bajc, S. Fajfer, and Robert J. Oakes, Vector and pseudoscalar charm meson radiative decays, [https://doi.org/10.1103/PhysRevD.51.2230 Phys. Rev. D 51, 2230 – Published 1 March 1995]<br />
** S. Fajfer, A. Prapotnik, and P. Singer, [https://doi.org/10.1103/PhysRevD.66.074002 Cabibbo allowed D -> Kπγ decays]<br />
** S. Fajfer, A. Prapotnik, and P. Singer [https://doi.org/10.1016/S0370-2693(02)02964-7 Charm radiative decays with neutral mesons]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://arxiv.org/abs/2104.08287 arXiv:2104.08287 [hep-ph]]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-27T12:35:31Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* Radiative decays<br />
** S. Fajfer, A. Prapotnik, and P. Singer, [https://doi.org/10.1103/PhysRevD.66.074002 Cabibbo allowed D -> Kπγ decays]<br />
** S. Fajfer, A. Prapotnik, and P. Singer [https://doi.org/10.1016/S0370-2693(02)02964-7 Charm radiative decays with neutral mesons]<br />
** S. Boer and G. Hiller [https://doi.org/10.1007/JHEP08(2017)091 Rare radiative charm decays within the standard model and beyond] <br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://arxiv.org/abs/2104.08287 arXiv:2104.08287 [hep-ph]]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-27T11:57:44Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* Radiative decays<br />
** S. Fajfer, A. Prapotnik, and P. Singer, [https://doi.org/10.1103/PhysRevD.66.074002 Cabibbo allowed D -> Kπγ decays]<br />
** S. Fajfer, A. Prapotnik, and P. Singer [https://doi.org/10.1016/S0370-2693(02)02964-7 Charm radiative decays with neutral mesons]<br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://arxiv.org/abs/2104.08287 arXiv:2104.08287 [hep-ph]]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-27T11:55:37Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* FCNC<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
** R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* Radiative decays<br />
** N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
** N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://arxiv.org/abs/2104.08287 arXiv:2104.08287 [hep-ph]]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CREMLINplusCREMLINplus2021-07-27T02:34:55Z<p>V.S.Vorobev: /* 1st Periodic Reporting (M1-M18) */</p>
<hr />
<div>[[File:Cpluslogo.png|300px]]<br />
<br />
= WP5: Joint technology development around SCT and future lepton colliders =<br />
<br />
== 1st Periodic Reporting (M1-M18) ==<br />
<br />
* '''Materials'''<br />
** [[Media:210408_Financial_workshop-CREMLINplus.pdf|Slides from financial workshop]]<br />
** [http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/amga/h2020-amga_en.pdf “Annotated Model Grand Agreement” (AGA) of the EC] (page 45ff)<br />
** [[Media:CREMLINplus_WP5-SCT.pdf|WP5 description]]<br />
<br />
* '''Drafts & Deadlines''':<br />
** WP5:<br />
*** WP5 Technical Report ([https://www.dropbox.com/s/jp48oivop79nv1a/CREMLINplus_Technical_Report_P1_WP5-SCT.docx?dl=0 draft document]): '''6 August'''<br />
**** [[:Media:Report_ALevichev.docx|Input by Alexey Levichev]]<br />
**** [[:Media:FrancoM1M18.docx|Input by Franco Grancagnolo]]<br />
**** [[:Media:CREMLINplus_TechReport_task5-4.docx|Input for task 5.4]]<br />
*** D5.1. Status report on the software for the SCT detector (final version: [[:Media:D5.1_status_report_software_for_SCT_detector_ks.docx|docx]], [[:Media:D5.1_status_report_software_for_SCT_detector_ks.pdf|pdf]]) '''Friday: 23.07.2021'''<br />
**** [[:Media:Cremlinplus_18month_report_plfernan.docx|Input from CERN]]<br />
*** MS27. Kick-off meeting of international collaboration around the SCT detector ([https://www.dropbox.com/s/2w13vkh72tyk0nz/MS27_international_collaboration_SCT_detector.docx?dl=0 draft document]): '''Wednesday, 28.07.2021'''<br />
**** [https://www.overleaf.com/read/jntqtvfhkdqf Draft of Memorandum of partnership (MoP) for SCT Detector and Physics]<br />
*** MS26. Release of the software framework for SCT detector([https://www.dropbox.com/s/slo6pwcr4cigcf2/MS26_software_framework_for_SCT_detector.docx?dl=0 draft document]): '''Wednesday, 28.07.2021'''<br />
** Beneficiaries:<br />
*** Technical Report - Questionnaire for beneficiaries ([https://www.dropbox.com/s/n3spni6xe3ys212/Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report_WP5.xlsx?dl=0 draft document]): '''13 August'''<br />
*** Financial Statement: '''15 September'''<br />
<br />
* '''Templates'''<br />
** [[Media:CREMLINplus_Technical_Report_P1_WP5-SCT.docx| WP5 Technical Report]]<br />
** [[Media:Timesheets_2019_H2020_MASTER_100%_Example_Cremlinplus_.xlsm|Timesheets]]<br />
** [[Media:Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report.xlsx|Questionnaire for beneficiaries]]<br />
** [[Media:D5.1_status_report_software_for_SCT_detector.docx|D5.1 Status report software for SCT detector]]<br />
** [[Media:MS26_software_framework_for_SCT_detector.docx|M5.1 Software framework for SCT detector]]<br />
** [[Media:MS27_international_collaboration_SCT_detector.docx|M5.2 International collaboration around SCT detector]]<br />
<br />
== WP5 Partners ==<br />
* [http://www.inp.nsk.su/budker-institute-of-nuclear-physics BINP]<br />
* [http://www.cern.ch CERN]<br />
* [http://home.infn.it/en/ INFN]<br />
* [http://www.uni-giessen.de/index.html JLU Giessen]<br />
* [https://www.lal.in2p3.fr/en/ IJCLab Orsay]<br />
<br />
== Documents ==<br />
* [[:Media:CREMLINplus-WP5-06022019.docx| WP5 Description (docx)]]<br />
* [[CREMLINplus_budget| WP5 budget (access restricted)]]<br />
* [https://docs.google.com/spreadsheets/d/1mL3wJfHmeB6IUUAEAixKF9531CVgEmZZiyXnSHrwyrw/edit?usp=sharing| WP5 M1-M12 timetable (version 1)]<br />
=== Templates ===<br />
* [[:Media:CREMLINplus_agenda_template.docx| Cplus agenda template (docx)]]<br />
* [[:Media:CREMLINplus_deliverable_template.docx| Cplus deliverable template (docx)]]<br />
* [[:Media:CREMLINplus_milestone_template.docx| Cplus milestone template (docx)]]<br />
<br />
== WP5 Tasks ==<br />
* [[WP5 Task1]]. Fostering internationalization and visibility of the SCT project, support of outreach activities related to SCT<br />
** Partners involved: BINP, CERN, INFN<br />
** Task leader: Vitaly Vorobyev (BINP)<br />
* [[WP5 Task2]]. Development of collider technologies and fostering synergy between SCT, CLIC, and FCC-ee collider projects<br />
** Partners involved: CERN, BINP, LAL<br />
** Task co-leader: Anton Bogomyagkov (BINP), Walid Kaabi (IJCLab), Aleksandr Starostenko (BINP)<br />
* [[WP5 Task3]]. Development of software for the design of an SCT detector<br />
** Partners involved: BINP, CERN<br />
** Task co-leader: Andrey Suharev (BINP), Andre Sailer (CERN)<br />
* [[WP5 Task4]]. Development and design of Inner Tracker for the SCT detector<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Giovanni Bencivenni (INFN LNF), Lev Shekhtman (BINP)<br />
* [[WP5 Task5]]. Development and design of Central Tracker for the SCT detector (BINP, INFN)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Franco Grancagnolo (INFN Lecce), Ivan Logashenko (BINP)<br />
* [[WP5 Task6]]. Development and design of Particle Identification system for the SCT detector (BINP, JLU)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Mustafa Schmidt (JLU), Alexander Barnyakov (BINP)<br />
<br />
== WP5 meetings ==<br />
<br />
* [https://indico.cern.ch/event/851809/ September 27th, 2019 meeting]<br />
* February 20, 2020 WP5 meeting at [[CREMLINplus kick-off]]<br />
* [https://indico.inp.nsk.su/event/37/ September 28-29, 2020 meeting]<br />
<br />
== sct-cremlinplus@inp.nsk.su ==<br />
* [[List of subscribers]] (Not public)<br />
<br />
<br />
[[Category:CREMLINplus]]<br />
--[[User:V.S.Vorobev|V.S.Vorobev]] ([[User talk:V.S.Vorobev|talk]]) 12:19, 4 October 2019 (+07)<br />
<br />
= WP7 Task 7.4: [[Detector_school_CREMLINplus|Detector technology school for young scientists]] =</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/CREMLINplusCREMLINplus2021-07-27T02:34:23Z<p>V.S.Vorobev: /* 1st Periodic Reporting (M1-M18) */</p>
<hr />
<div>[[File:Cpluslogo.png|300px]]<br />
<br />
= WP5: Joint technology development around SCT and future lepton colliders =<br />
<br />
== 1st Periodic Reporting (M1-M18) ==<br />
<br />
* '''Materials'''<br />
** [[Media:210408_Financial_workshop-CREMLINplus.pdf|Slides from financial workshop]]<br />
** [http://ec.europa.eu/research/participants/data/ref/h2020/grants_manual/amga/h2020-amga_en.pdf “Annotated Model Grand Agreement” (AGA) of the EC] (page 45ff)<br />
** [[Media:CREMLINplus_WP5-SCT.pdf|WP5 description]]<br />
<br />
* '''Drafts & Deadlines''':<br />
** WP5:<br />
*** WP5 Technical Report ([https://www.dropbox.com/s/jp48oivop79nv1a/CREMLINplus_Technical_Report_P1_WP5-SCT.docx?dl=0 draft document]): '''6 August'''<br />
**** [[:Media:Report_ALevichev.docx|Input by Alexey Levichev]]<br />
**** [[:Media:FrancoM1M18.docx|Input by Franco Grancagnolo]]<br />
**** [[:Media:CREMLINplus_TechReport_task5-4.docx|Input for task 5.4]]<br />
*** D5.1. Status report on the software for the SCT detector (final version: [D5.1_status_report_software_for_SCT_detector_ks.docx docx], [D5.1_status_report_software_for_SCT_detector_ks.pdf pdf]) '''Friday: 23.07.2021'''<br />
**** [[:Media:Cremlinplus_18month_report_plfernan.docx|Input from CERN]]<br />
*** MS27. Kick-off meeting of international collaboration around the SCT detector ([https://www.dropbox.com/s/2w13vkh72tyk0nz/MS27_international_collaboration_SCT_detector.docx?dl=0 draft document]): '''Wednesday, 28.07.2021'''<br />
**** [https://www.overleaf.com/read/jntqtvfhkdqf Draft of Memorandum of partnership (MoP) for SCT Detector and Physics]<br />
*** MS26. Release of the software framework for SCT detector([https://www.dropbox.com/s/slo6pwcr4cigcf2/MS26_software_framework_for_SCT_detector.docx?dl=0 draft document]): '''Wednesday, 28.07.2021'''<br />
** Beneficiaries:<br />
*** Technical Report - Questionnaire for beneficiaries ([https://www.dropbox.com/s/n3spni6xe3ys212/Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report_WP5.xlsx?dl=0 draft document]): '''13 August'''<br />
*** Financial Statement: '''15 September'''<br />
<br />
* '''Templates'''<br />
** [[Media:CREMLINplus_Technical_Report_P1_WP5-SCT.docx| WP5 Technical Report]]<br />
** [[Media:Timesheets_2019_H2020_MASTER_100%_Example_Cremlinplus_.xlsm|Timesheets]]<br />
** [[Media:Questionnaire_beneficiaries_CREMLINplus_1st_periodic_report.xlsx|Questionnaire for beneficiaries]]<br />
** [[Media:D5.1_status_report_software_for_SCT_detector.docx|D5.1 Status report software for SCT detector]]<br />
** [[Media:MS26_software_framework_for_SCT_detector.docx|M5.1 Software framework for SCT detector]]<br />
** [[Media:MS27_international_collaboration_SCT_detector.docx|M5.2 International collaboration around SCT detector]]<br />
<br />
== WP5 Partners ==<br />
* [http://www.inp.nsk.su/budker-institute-of-nuclear-physics BINP]<br />
* [http://www.cern.ch CERN]<br />
* [http://home.infn.it/en/ INFN]<br />
* [http://www.uni-giessen.de/index.html JLU Giessen]<br />
* [https://www.lal.in2p3.fr/en/ IJCLab Orsay]<br />
<br />
== Documents ==<br />
* [[:Media:CREMLINplus-WP5-06022019.docx| WP5 Description (docx)]]<br />
* [[CREMLINplus_budget| WP5 budget (access restricted)]]<br />
* [https://docs.google.com/spreadsheets/d/1mL3wJfHmeB6IUUAEAixKF9531CVgEmZZiyXnSHrwyrw/edit?usp=sharing| WP5 M1-M12 timetable (version 1)]<br />
=== Templates ===<br />
* [[:Media:CREMLINplus_agenda_template.docx| Cplus agenda template (docx)]]<br />
* [[:Media:CREMLINplus_deliverable_template.docx| Cplus deliverable template (docx)]]<br />
* [[:Media:CREMLINplus_milestone_template.docx| Cplus milestone template (docx)]]<br />
<br />
== WP5 Tasks ==<br />
* [[WP5 Task1]]. Fostering internationalization and visibility of the SCT project, support of outreach activities related to SCT<br />
** Partners involved: BINP, CERN, INFN<br />
** Task leader: Vitaly Vorobyev (BINP)<br />
* [[WP5 Task2]]. Development of collider technologies and fostering synergy between SCT, CLIC, and FCC-ee collider projects<br />
** Partners involved: CERN, BINP, LAL<br />
** Task co-leader: Anton Bogomyagkov (BINP), Walid Kaabi (IJCLab), Aleksandr Starostenko (BINP)<br />
* [[WP5 Task3]]. Development of software for the design of an SCT detector<br />
** Partners involved: BINP, CERN<br />
** Task co-leader: Andrey Suharev (BINP), Andre Sailer (CERN)<br />
* [[WP5 Task4]]. Development and design of Inner Tracker for the SCT detector<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Giovanni Bencivenni (INFN LNF), Lev Shekhtman (BINP)<br />
* [[WP5 Task5]]. Development and design of Central Tracker for the SCT detector (BINP, INFN)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Franco Grancagnolo (INFN Lecce), Ivan Logashenko (BINP)<br />
* [[WP5 Task6]]. Development and design of Particle Identification system for the SCT detector (BINP, JLU)<br />
** Partners involved: BINP, INFN<br />
** Task co-leader: Mustafa Schmidt (JLU), Alexander Barnyakov (BINP)<br />
<br />
== WP5 meetings ==<br />
<br />
* [https://indico.cern.ch/event/851809/ September 27th, 2019 meeting]<br />
* February 20, 2020 WP5 meeting at [[CREMLINplus kick-off]]<br />
* [https://indico.inp.nsk.su/event/37/ September 28-29, 2020 meeting]<br />
<br />
== sct-cremlinplus@inp.nsk.su ==<br />
* [[List of subscribers]] (Not public)<br />
<br />
<br />
[[Category:CREMLINplus]]<br />
--[[User:V.S.Vorobev|V.S.Vorobev]] ([[User talk:V.S.Vorobev|talk]]) 12:19, 4 October 2019 (+07)<br />
<br />
= WP7 Task 7.4: [[Detector_school_CREMLINplus|Detector technology school for young scientists]] =</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:D5.1_status_report_software_for_SCT_detector_ks.pdfFile:D5.1 status report software for SCT detector ks.pdf2021-07-27T02:34:04Z<p>V.S.Vorobev: </p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/File:D5.1_status_report_software_for_SCT_detector_ks.docxFile:D5.1 status report software for SCT detector ks.docx2021-07-27T02:33:51Z<p>V.S.Vorobev: </p>
<hr />
<div></div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-26T06:22:09Z<p>V.S.Vorobev: /* Очарованные адроны */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
* R. Bause, H. Gisbert, M. Golz, and G. Hiller Exploiting CP asymmetries in rare charm decays [https://doi.org/10.1103/PhysRevD.101.115006 Phys. Rev. D 101, 115006]<br />
* N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
* N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://arxiv.org/abs/2104.08287 arXiv:2104.08287 [hep-ph]]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobevhttps://ctd.inp.nsk.su/wiki/index.php/SCT_Physics_Update_2021SCT Physics Update 20212021-07-26T05:50:35Z<p>V.S.Vorobev: /* Источники */</p>
<hr />
<div>= Рабочие материалы =<br />
<br />
* Overleaf<br />
** [https://www.overleaf.com/1981928979fxfscrqwykvx Русская версия]<br />
<br />
= Участники процесса =<br />
<br />
* [mailto:! И.Б. Логашенко] - общая координация<br />
* [mailto:! В.П. Дружинин] - двухфотонная физика<br />
* [mailto:! А.Е. Бондарь] - научное руководство<br />
* [mailto:! В.С. Воробьев] - очарованные мезоны<br />
* [mailto:! Д.А. Епифанов] - тау лептон<br />
* [mailto:! И.А. Рачек] - <br />
* [mailto:! М.Н. Ачасов] - чармоний<br />
* [mailto:! Ф.В. Игнатов] - <br />
* [mailto:! К.Ю. Тодышев] -<br />
<br />
= Источники =<br />
<br />
* SCT<br />
** [[SCT_talks|Совещания и доклады по СЧТФ]]<br />
* BES III<br />
** Physics at BES-III [https://arxiv.org/abs/0809.1869 arXiv:0809.1869 hep-ex]<br />
** Future Physics Programme of BESIII [https://arxiv.org/abs/1912.05983 arXiv:1912.05983 hep-ex]<br />
* LHCb<br />
** Physics case for an LHCb Upgrade II [[https://arxiv.org/abs/1808.08865 arXiv:1808.08865 hep-ex]]<br />
* Belle II<br />
** The Belle II Physics Book [https://arxiv.org/abs/1808.10567 arXiv:1808.10567 hep-ex]<br />
* Обзоры<br />
** Теория<br />
*** I. Bigi et al, A Cicerone for the Physics of Charm [https://arxiv.org/abs/hep-ex/0309021 arXiv:hep-ex/0309021]<br />
*** A. Pich, Tau Lepton Physics: Theory Overview [https://arxiv.org/abs/hep-ph/9612308 arXiv:hep-ph/9612308]<br />
*** The Physics of Hadronic Tau Decays [https://arxiv.org/abs/hep-ph/0507078 arXiv:hep-ph/0507078]<br />
*** Hadronic tau decays as New Physics probes in the LHC era [https://arxiv.org/abs/1809.01161 arXiv:1809.01161 [hep-ph]]<br />
*** G. Buchalla et al., [https://doi.org/10.1140/epjc/s10052-008-0716-1 B, D and K decays]<br />
** Эксперимент<br />
*** Конференця [https://indico.nucleares.unam.mx/event/1488/timetable/#20210531.detailed Charm2020]<br />
**** Eric BRAATEN, [https://indico.nucleares.unam.mx/event/1488/session/2/contribution/32 Exotics interpretation (Born-Oppenheimer approx)]<br />
**** Roy BRIERE, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/37 Charm and XYZ Prospects at Belle II]<br />
**** Frank NERLING, [https://indico.nucleares.unam.mx/event/1488/session/5/contribution/38 Charm(omium) physics at PANDA]<br />
**** Longke LI, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/41 Recent charm results at Belle]<br />
**** Xiaoyan SHEN, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/42 Charm Physics at BESIII/BEPCII Experiment]<br />
**** Xiaorong ZHOU, [https://indico.nucleares.unam.mx/event/1488/session/6/contribution/43 Experimental Program for Super Tau-Charm Facility in China]<br />
**** Mikhasenko MIKHAIL, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/48 Charm hadron spectroscopy @ LHCb]<br />
**** Andrzej KUPSC, [https://indico.nucleares.unam.mx/event/1488/session/7/contribution/46 Precision hyperonphysics at J/Psi and Psi' factories]<br />
**** Svetlana FAJFER, [https://indico.nucleares.unam.mx/event/1488/session/13/contribution/57 Rare semileptonic charm D decays and possible new physics in charm]<br />
**** Emilie PASSEMAR, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/116 Tau Physics at a super-charm-tau factory]<br />
**** Alberto LUSIANI, [https://indico.nucleares.unam.mx/event/1488/session/21/contribution/117 Tau Physics @ SCTF (experimental perspective)]<br />
*** Конференция [https://moriond.in2p3.fr/QCD/2021/MorQCD21Prog.html Moriond 2021]<br />
<br />
== Очарованные адроны ==<br />
<br />
Работы, на которые пока нет ссылок.<br />
<br />
Теория и феноменология:<br />
<br />
* S. Fajfer and N. Košnik, [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-015-3801-2 Prospects of discovering new physics in rare charm decays]<br />
* J. Fuentes-Martin, A. Greljo, J. M. Camalich, and J. D. Ruiz-Alvarez, [https://doi.org/10.1007/JHEP11(2020)080 Charm physics confronts high-pT lepton tails]<br />
* R. Bause, H. Gisbert, M. Golz, and G. Hiller, Rare charm c→uνν dineutrino null tests for e+e− machines, [https://doi.org/10.1103/PhysRevD.103.015033 Phys. Rev. D 103, 015033]<br />
* N. Adolph, J. Brod, and G. Hiller, Radiative three-body D-meson decays in and beyond the standard model [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-021-08832-3 Eur. Phys. J. C 81, 45 (2021)]<br />
* N. Adolph and G. Hiller, Probing QCD dynamics and the standard model with D_{(s)} \to P^+ P^0 γ decays, [https://arxiv.org/abs/2104.08287 arXiv:2104.08287 [hep-ph]]<br />
* A. L. Kagan and L. Silvestrini, Dispersive and Absorptive CP Violation in D^0- \overline{D^0} Mixing [https://doi.org/10.1103/PhysRevD.103.053008 Phys. Rev. D 103 (2021) 053008]<br />
* M. Algueró, B. Capdevila, A. Crivellin, et al. Emerging patterns of New Physics with and without Lepton Flavour Universal contributions [https://link.springer.com/article/10.1140/epjc/s10052-019-7216-3 Eur. Phys. J. C 79, 714 (2019)], [https://link.springer.com/article/10.1140%2Fepjc%2Fs10052-020-8018-3 Eur. Phys. J. C 80, 511 (2020)]<br />
<br />
Эксперимент:<br />
<br />
* LHCb, Searches for 25 rare and forbidden decays of D+ and D+s mesons [https://doi.org/10.1007/JHEP06(2021)044 JHEP (2021) 44]<br />
* LHCb, Search for D+(s) -> pi+ mu+ mu- and D+(s) -> pi- mu+ mu+ decays [https://doi.org/10.1016/j.physletb.2013.06.010 Phys. Lett. B 724 (2013) 203]<br />
<br />
<gallery widths=60px heights=60px perrow=7 caption="Slides"><br />
File:BelleIIcharmCPV.png<br />
File:BelleIIsigmaTime.png<br />
</gallery><br />
<br />
== Тау лептон ==<br />
<br />
* P. Blackstone, M. Fael, E. Passemar τ → μμμ at a rate of one out of 10^14 tau decays? [https://doi.org/10.1140/epjc/s10052-020-8059-7 Eur. Phys. J. C (2020) 80: 506]</div>V.S.Vorobev