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Ultraperipheral nuclear interactions

 
Lebedev Physical Institute, Russian Academy of Sciences, Leninsky prosp. 53, Moscow, 119991, Russian Federation

Long-distance ultraperipheral collisions of two relativistic ions are considered. Clouds of photons surrounding the ions are responsible for their distant electromagnetic interaction. The perturbative approach and the method of equivalent photons are described. It is shown that the total cross section of these collisions increases fast with an energy increase and is especially large for heavy ions. Some experimental data and their comparison with theoretical approaches are described. Further proposals are discussed.

Fulltext pdf (582 KB)
Fulltext is also available at DOI: 10.3367/UFNe.2020.03.038741
Keywords: proton, nucleus, ultraperipheral interactions, cross section, form factor, impact parameter
PACS: 12.20.−m, 25.75.−q, 34.50.−s (all)
DOI: 10.3367/UFNe.2020.03.038741
URL: https://ufn.ru/en/articles/2020/8/b/
000583209000002
2-s2.0-85087181423
2020PhyU...63..758D
Citation: Dremin I M "Ultraperipheral nuclear interactions" Phys. Usp. 63 758–765 (2020)
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Received: 19th, February 2020, revised: 24th, March 2020, 25th, March 2020

Оригинал: Дрёмин И М «Ультрапериферические взаимодействия ядер» УФН 190 811–819 (2020); DOI: 10.3367/UFNr.2020.03.038741

References (86) ↓ Cited by (6) Similar articles (19)

  1. Fermi E Z. Phys. 29 315 (1924)
  2. Fermi E Nuovo Cimento 2 143 (1925); Per. s ital. yaz. na angl. yaz., Fermi E hep-th/0205086
  3. Weizsäcker C F V Z. Phys. 88 612 (1934)
  4. Williams E J Phys. Rev. 45 729 (1934)
  5. Landau L D, Lifshitz E M Phys. Z. Sowjetunion 6 244 (1934)
  6. Anderson C D Phys. Rev. 43 491 (1933)
  7. Racah G Nuovo Cimento 14 93 (1937)
  8. Budnev V M et al Phys. Rep. 15 181 (1975)
  9. Bertulani C A, Baur G Phys. Rep. 163 299 (1988)
  10. Baur G et al Phys. Rep. 364 359 (2002)
  11. Bertulani C A, Klein S R, Nystrand J Annu. Rev. Nucl. Part. Sci. 55 271 (2005)
  12. Baur G, Hencken K, Trautmann D Phys. Rep. 453 1 (2007)
  13. Ruffini R, Vereshchagin G, Xue S-S Phys. Rep. 487 1 (2010)
  14. Di Piazza A et al Rev. Mod. Phys. 84 1177 (2012)
  15. Ivanov D Yu, Schiller A, Serbo V G Phys. Lett. B 454 155 (1999)
  16. Lee R N, Milstein A I, Serbo V G Phys. Rev. A 65 022102 (2002)
  17. Gevorkyan S R, Kuraev E A J. Phys. G 29 1227 (2003)
  18. Baltz A J Phys. Rev. C 71 024901 (2005)
  19. Hencken K, Kuraev E A, Serbo V G Phys. Rev. C 75 034903 (2007)
  20. Baltz A J Phys. Rev. C 80 034901 (2009)
  21. Carlson C E, Tung W-K Phys. Rev. D 6 147 (1972)
  22. Klein S R et al. arXiv:2003.02947
  23. Meier H et al Phys. Rev. A 63 032713 (2001)
  24. Berestetskii V B, Lifshits E M, Pitaevskii L P Kvantovaya Elektronika (M.: Fizmatlit, 2001); Per. na angl. yaz., Berestetskii V B, Lifshitz E M, Pitaevskii L P Quantum Electrodynamics (Oxford: Pergamon Press, 1982)
  25. Baur G, Bertulani C A Z. Phys. A 330 77 (1988)
  26. Klein S R, Nystrand J Phys. Rev. Lett. 84 2330 (2000)
  27. Güçlü et al Ann. Physics 272 7 (1999)
  28. Baltz A J et al Phys. Rev. C 80 044902 (2009)
  29. Klusek-Gawenda M, Szczyrek A Phys. Lett. B 763 416 (2016)
  30. Sengül M Y et al Eur. Phys. J. C 76 428 (2016)
  31. Zha W et al Phys. Lett. B 789 238 (2019)
  32. Khoze V A, Martin A D, Ryskin M G J. Phys. G 46 085002 (2019)
  33. Dremin I M Int. J. Mod. Phys. A 34 1950068 (2019)
  34. Vysotskii M I, Zhemchugov E V Usp. Fiz. Nauk 189 975 (2019); Vysotsky M I, Zhemchugov E V Phys. Usp. 62 910 (2019)
  35. Adams J et al (STAR Collab.) Phys. Rev. C 70 031902(R) (2004)
  36. Abbas E et al (ALICE Collab.) Eur. Phys. J C 73 2617 (2013)
  37. Dyndal M (ATLAS Collab.) Nucl. Phys. A 967 281 (2017)
  38. Khachatryan V et al (CMS Collab.) Phys. Lett. B 772 489 (2017)
  39. Aaboud M et al (ATLAS Collab.) Phys. Lett. B 777 303 (2018)
  40. ATLAS Collab. ATLAS-CONF-2016-025 (2016)
  41. Arratia M AIP Conf. Proc. 1819 070001 (2017)
  42. Aaboud M et al (ATLAS Collab.) Nat. Phys. 13 852 (2017)
  43. d’Enterria D (for the CMS Collab.) Nucl. Phys. A 982 791 (2019)
  44. Aad G et al (ATLAS Collab.) Phys. Rev. Lett. 123 052001 (2019)
  45. Kotkin G L et al Phys. Rev. C 59 2734 (1999)
  46. Bertulani C A, Navarra F S Nucl. Phys. A 703 861 (2002)
  47. Froissart M Phys. Rev. 123 1053 (1961)
  48. Dremin I M Universe 6 (1) 4 (2020); Dremin I M Universe 6 (7) 94 (2020)
  49. Klein S R Phys. Rev. C 97 054903 (2018)
  50. Azevedo C, Gonçalves V P, Moreira B D Eur. Phys. J. C 79 432 (2019)
  51. Szczurek A arXiv:1810.06249
  52. Breit G, Wheeler J A Phys. Rev. 46 1087 (1934)
  53. Dyndal M, Schoeffel L Phys. Lett. B 741 66 (2015)
  54. Dremin I Physics 1 (1) 33 (2019)
  55. Harland-Lang L A, Khoze V A, Ryskin M G J. High Energ. Phys. 2016 182 (2016)
  56. Klein S R et al Comput. Phys. Commun. 212 258 (2017)
  57. Harland-Lang L A, Khoze V A, Ryskin M G Eur. Phys. J. C 79 39 (2019)
  58. Aleksandrov I A, Plunien G, Shabaev V M Phys. Rev. D 100 116003 (2019)
  59. Fradkin E S, Tseytlin A A Phys. Lett. B 163 123 (1985)
  60. Antreasyan D et al Preprint CERN-EP-80-82 (Geneva: CERN, 1980)
  61. Greiner M, Vidović M, Soff G Phys. Rev. C 47 2288 (1993)
  62. Piotrzkowski K Phys. Rev. D 63 071502(R) (2001)
  63. Ohnemus J, Walsh T F, Zerwas P M Phys. Lett. B 328 369 (1994)
  64. Schul N, Piotrzkowski K Nucl. Phys. B Proc. Suppl. 179-180 289 (2008)
  65. Khoze V A et al Eur. Phys. J. C 68 125 (2010)
  66. Harland-Lang L A et al Eur. Phys. J. C 72 1969 (2012)
  67. Khoze V A, Martin A D, Ryskin M G J. Phys. G 44 055002 (2017)
  68. Harland-Lang L A et al J. High Energ. Phys. 2019 10 (2019)
  69. Beresford L, Liu J Phys. Rev. Lett. 123 141801 (2019)
  70. Godunov S I et al J. High Energ. Phys. 2020 143 (2020)
  71. ’t Hooft G Nucl. Phys. B 79 276 (1974)
  72. Abbott B et al (D0 Collab.) Phys. Rev. Lett. 81 524 (1998)
  73. Acharya B et al (MoEDAL Collab.) Phys. Lett. B 782 510 (2018)
  74. Ahern S C, Norbury J W, Poyser W J Phys. Rev. D 62 116001 (2000)
  75. Knapen S et al Phys. Rev. Lett. 118 171801 (2017)
  76. Bruce R et al J. Phys. G 47 060501 (2020)
  77. Baldenegro C et al Phys. Lett. B 795 339 (2019)
  78. Shakeri S, Marsh D J E, Xue S-S arXiv:2002.06123
  79. Coelho R O et al Phys. Lett. B 806 135512 (2020)
  80. Sikivie P arXiv:2003.02206
  81. Inan S C, Kisselev A V J. High Energ. Phys. 2020 183 (2020)
  82. Richard F arXiv:1712.06410
  83. Çakir O, Ozansoy K O Eur. Phys. J. C 56 279 (2008)
  84. Liu J arXiv:1908.05180
  85. Tanabashi M et al (Particle Data Group) Phys. Rev. D 98 030001 (2018)
  86. Bauer D A, Karlovets D V, Serbo V G arXiv:2006.01377

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