Simulation of charmed particle production in Geant4

A. S. Galoyan; Галоян А. С.; V. M. Grichine; Гришин В. М.; A. Ribon; Рибон А.; V. V. Uzhinsky; Ужинский В. В.

doi:10.31857/S0367676523702022

Simulation of charmed particle production in Geant4

Autores: Galoyan A.¹, Grichine V.², Ribon A.³, Uzhinsky V.¹
Afiliações:
1. Joint Institute for Nuclear Research
2. Lebedev Physical Institute of the Russian Academy of Sciences
3. European Organization for Nuclear Research (CERN)
Edição: Volume 87, Nº 8 (2023)
Páginas: 1125-1129
Seção: Articles
URL: https://journals.rcsi.science/0367-6765/article/view/135460
DOI: https://doi.org/10.31857/S0367676523702022
EDN: https://elibrary.ru/ZBTRPZ
ID: 135460

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Sobre autores
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Resumo

It is expected that charmed particles will be copiously produced at Future Circular Collider (FCC). Due to relatively large lifetime of the particles, it will be needed to account their interactions with surrounded materials and detector’s materials. To satisfy the requirements, charmed particle production in soft interactions has been implemented in QGS and FTF models of the Geant4 package. Some details of the implementations are considered.

Sobre autores

A. Galoyan

Joint Institute for Nuclear Research

Email: uzhinsky@.jinr.ru
Russia, 141980, Dubna

V. Grichine

Lebedev Physical Institute of the Russian Academy of Sciences

Email: uzhinsky@.jinr.ru
Russia, 119991, Moscow

A. Ribon

European Organization for Nuclear Research (CERN)

Email: uzhinsky@.jinr.ru
Switzerland, CH-1211, Geneva

V. Uzhinsky

Joint Institute for Nuclear Research

Autor responsável pela correspondência
Email: uzhinsky@.jinr.ru
Russia, 141980, Dubna

Bibliografia

Agostinelli S., Allison J., Amako K. et al. // Nucl. Instrum. Meth. A. 2003. V. 506. P. 250.
Allison T., Amako K., Apostolakis J. et al. // IEEE Trans. Nucl. Sci. 2006. V. 53. P. 270.
Allison J., Amako K., Apostolakis J. et al. (Geant4 Collaboration) // Nucl. Instrum. Meth. A. 2016. V. 835. P. 186.
Kaidalov A.B. // Phys. Lett. 1982. V. 116B. P. 459.
Kaidalov A.B., Ter-Martirosian K.A. // Phys. Lett. 1982. V. 117B. P. 247.
Andersson B., Gustafson G., Nilsson-Almqvist B. // Nucl. Phys. B. 1987. V. 281. P. 289.
Nilsson-Almqvist B., Stenlund E. // Comput. Phys. Commun. 1987. V. 43. P. 387.
Grichine V.M. // IEEE Trans. Nucl. Sci. 2020. V. 67. P. 1993.
Лыкасов Г.И., Аракелян Г.Х., Сергеенко М.Н. // ЭЧАЯ. 1999. Т. 30. С. 817.
Andersson B., Gustafson G., Ingelman G., Sjostrand T. // Phys. Reports. 1983. V. 97. P. 31.
http://geant4.web.cern.ch/geant4/UserDocumentation/ UsersGuides/PhysicsReferenceManual/fo/PhysicsReferenceManual.pdf.
Боресков К.Г., Кайдалов А.Б. // ЯФ 1983. Т. 37. С. 174; Boreskov K.G., Kaidalov A.B. // Sov. J. Nucl. Phys. 1983. V. 37. P. 100.
Кайдалов А.Б., Пискунова О.И. // ЯФ 1986. Т. 43. С. 1545; Kaidalov A.B., Piskunova O.I. // Sov. J. Nucl. Phys. 1986. V. 43. P. 994.
Пиcкyнoвa O.И. // ЯФ 1993. T. 56. C. 176; Piskunova O.I. // Sov. J. Nucl. Phys. 1993. V. 56. P. 1094.
Field R.D., Feynman R.P. // Nucl. Phys. B. 1978. V. 136. P. 1.
Veselov A.I., Piskunova O.I., Ter-Martirosian K.A. // Phys. Lett. 1985. V. B158. P. 175.
Lykasov G.I., Sergeenko M.N. // Z. Phys. 1992. V. C56. P. 697.
Кайдалов А.Б., Пискунова О.И. // ЯФ. 1985. Т. 41. С. 1278.
Cifarelli L., Eskut E., Shabelski Yu.M. // Nuovo Cimento. 1993. V. 106A. P. 389.
Arakelian G.G., Volkovitsky P.E. // Z. Phys. 1995. V. A353. P. 87.
Sinegovsky S.I., Sorokovikov M.N. // Eur. Phys. J. 2020. V. C80. P. 34.
Lourenco C., Wohri H.K. // Phys. Reports. 2006. V. 433. P. 127.
Alves G.A. et al. (E769 Collaboration) // Phys. Rev. Lett. 1996. V. 77. P. 239.
Aguilar-Benitez M., Allison W.W.M., Bailly J.L. et al. (LEBC-EHS Collaboration) // Z. Phys. C. 1988. V. 40. P. 321.