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Хиггсовский бозон открыт: что дальше?

 а, б, в
а Объединенный институт ядерных исследований, Лаборатория теоретической физики им. Н.Н. Боголюбова, Дубна, Московская обл., Российская Федерация
б Государственный научный центр Российской Федерации «Институт теоретической и экспериментальной физики им. А.И. Алиханова», ул. Б. Черемушкинская 25, Москва, 117259, Российская Федерация
в Московский физико-технический институт (национальный исследовательский университет), Институтский пер. 9, Долгопрудный, Московская обл., 141701, Российская Федерация

Физика на Большом адронном коллайдере. Бозон Хиггса (Научная сессия Отделения физических наук Российской академии наук, 26 февраля 2014 г.)

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PACS: 12.15.−y, 12.60.−i, 14.80.−j (все)
DOI: 10.3367/UFNr.0184.201409j.1004
URL: https://ufn.ru/ru/articles/2014/9/j/
Цитата: Казаков Д И "Хиггсовский бозон открыт: что дальше?" УФН 184 1004–1016 (2014)
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26 февраля 2014

English citation: Kazakov D I “The Higgs boson is found: what is next?Phys. Usp. 57 930–942 (2014); DOI: 10.3367/UFNe.0184.201409j.1004

Список литературы (79) ↓ Статьи, ссылающиеся на эту (17) Похожие статьи (20)

  1. Aad G et al. (ATLAS Collab.) Phys. Lett. B 716 1 (2012)
  2. Chatrchyan S et al. (CMS Collab.) Phys. Lett. B 716 30 (2012)
  3. Englert F, Brout R Phys. Rev. Lett. 13 321 (1964)
  4. Higgs P W Phys. Rev. Lett. 13 508 (1964)
  5. http://commons.wikimedia.org/wiki/File:Standard Model of Elementary Particles.svg
  6. Baak M et al. Eur. Phys. J. C 72 2205 (2012)
  7. ATLAS Collab. "Coupling properties of the new Higgs-like boson observed with the ATLAS detector at the LHC" ATLAS-CONF-2012-127; ATLAS Collab. http://cds.cern.ch/record/1476765
  8. CMS Collab. "Combination of standard model Higgs boson searches and measurements of the properties of the new boson with mass near 125 GeV" CMS-PAS-HIG-12-045, CMS physics analysis summary; CMS Collab. https://cds.cern.ch/record/1494149
  9. Gunion J F, Haber H E Phys. Rev. D 67 075019 (2003)
  10. Branco G C et al. Phys. Rep. 516 1 (2012)
  11. Haber H E, Kane G L Phys. Rep. 117 75 (1985)
  12. Haber H E "Introductory low-energy supersymmetry" Recent Directions in Particle Theory: from Superstrings and Black Holes to the Standard Model: Proc. of the 1992 Theoretical Advanced Study Institute in Elementary Particle Physics, Boulder, Colorado, 1 - 26 June 1992 (Eds J Harvey, J Polchinski) (Singapore: World Scientific, 1993) p. 589; Haber H E Calif. Univ. Santa Cruz SCIPP 92-033 (93/04); Haber H E hep-ph/9306207
  13. Baer H, Tata X Weak Scale Supersymmetry: from Superfields to Scattering Events (Cambridge, UK: Cambridge Univ. Press, 2006); Kazakov D I "Beyond the Standard Model (In search of supersymmetry)" hep-ph/0012288; Kazakov D I 2000 European School of High-Energy Physics, Caramulo, Portugal, 20 August - 2 September 2000, Proc. (CERN 2001-003, Eds N Ellis, J March-Russell) (Geneva: CERN, 2001)
  14. Kazakov D I Nucl. Phys. B Proc. Suppl. 203 - 204 118 (2010); Kazakov D I arXiv:1010.5419
  15. Ellwanger U, Hugonie C, Teixeira A M Phys. Rep. 496 1 (2010); Ellwanger U, Hugonie C, Teixeira A M arXiv:0910.1785
  16. Marzocca D, Serone M, Shu J JHEP 2012 (08) 013 (2012); Marzocca D, Serone M, Shu J arXiv:1205.0770
  17. Asner D M et al. arXiv:1310.0763
  18. Baer H et al. arXiv:1306.6352
  19. Strumia A, Vissani F hep-ph/0606054
  20. Lobashev V M Nucl. Phys. A 153 (2003)
  21. Kraus Ch et al. Eur. Phys. J. C 40 447 (2005); Kraus Ch et al. hep-ex/0412056
  22. Karlsruhe Tritium Neutrino Experiment, KATRIN, http://www.katrin.kit.edu
  23. Малиновский А М и др. Письма в Астрон. журн. 34 490 (2008); Malinovsky A M et al. Astron. Lett. 34 445 (2008)
  24. Ichikawa K, Fukugita M, Kawasaki M Phys. Rev. D 71 043001 (2005)
  25. Giusarma E et al. Phys. Rev. D 88 063515 (2013); Giusarma E et al. arXiv:1306.5544
  26. Minkowski P Phys. Lett. B 67 421 (1977)
  27. Yanagida T Prog. Theor. Phys. 64 1103 (1980)
  28. Барабаш А С УФН 184 524 (2014); Barabash A S Phys. Usp. 57 482 (2014); Ишханов Б С "Радиоактивность. 4. Двойной бета-распад" http://www.hep.by/gnu/nuclphys/radioactivity/ract04.htm
  29. Ackerman N et al. (EXO Collab.) Phys. Rev. Lett. 107 212501 (2011); Ackerman N et al. (EXO Collab.) arXiv:1108.4193
  30. Albert J B et al. (EXO Collab.) Phys. Rev. C 89 015502 (2014); Albert J B et al. (EXO Collab.) arXiv:1306.6106
  31. Kaufman L J arXiv:1305.3306
  32. The ALEPH Collab., The DELPHI Collab., The L3 Collab., The OPAL Collab. The SLD Collab., The LEP Electroweak Working Group, The SLD Electroweak and Heavy Flavour Groups Phys. Rep. 427 257 (2006); The ALEPH Collab., The DELPHI Collab., The L3 Collab., The OPAL Collab. The SLD Collab., The LEP Electroweak Working Group, The SLD Electroweak and Heavy Flavour Groups hep-ex/0509008
  33. Hou Z et al. Astrophys. J. 782 74 (2014); Hou Z et al. arXiv:1212.6267
  34. Chatrchyan S et al. (CMS Collab.) Phys. Rev. Lett. 107 271802 (2011); Chatrchyan S et al. (CMS Collab.) arXiv:1109.4985
  35. Chatrchyan S et al. (CMS Collab.) Phys. Lett. B 718 307 (2012); Chatrchyan S et al. (CMS Collab.) arXiv:1209.0471
  36. Chatrchyan S et al. (CMS Collab.) Phys. Rev. D 86 112003 (2012); Chatrchyan S et al. (CMS Collab.) arXiv:1209.1062
  37. Сахаров А Д Письма в ЖЭТФ 5 32 (1967); Sakharov A D JETP Lett. 5 24 (1967)
  38. Сахаров А Д УФН 161 (5) 61 (1991); Sakharov A D Sov. Phys. Usp. 34 392 (1991)
  39. Ceccucci A, Ligeti Z, Saka Y "11. The CKM quark-mixing matrix (Revised March 2012)" http://pdg.lbl.gov/2013/reviews/rpp2013-rev-ckm-matrix.pdf
  40. Department of Chemistry and Physics at Armstrong Atlantic State University, http://chemphys.armstrong.edu
  41. Stone S "New physics from flavour" PoS ICHEP2012 (2013) p. 033; Stone S http://inspirehep.net/record/1209003/plots
  42. Riotto A "Theories of baryogenesis" CERN-TH/98-204 (1998); Riotto A hep-ph/9807454; Riotto A https://cds.cern.ch/record/360593
  43. Dolgov A D "Baryogenesis, 30 years after" TAC-1997-024 (1997); Dolgov A D hep-ph/9707419
  44. Trodden M Rev. Mod. Phys. 71 1463 (1999); Trodden M hep-ph/9803479
  45. Degrassi G et al. JHEP (08) 098 (2012); Degrassi G et al. arXiv:1205.6497
  46. Komatsu E et al. Astrophys. J. Suppl. 192 18 (2011); Komatsu E et al. arXiv:1001.4538
  47. Ade P A R et al. (Planck Collab.) arXiv:1303.5062
  48. Kolb E W, Turner M The Early Universe (Frontiers in Physics) Vol. 69 (Reading, Mass.: Addison-Wesley, 1990)
  49. Bertone G, Hooper D, Silk J Phys. Rep. 405 279 (2005); Bertone G, Hooper D, Silk J hep-ph/0404175
  50. ScienceBlogs, http://scienceblogs.com
  51. Begeman K G, Broeils A H, Sanders R H Mon. Not. R. Astron. Soc. 249 523 (1991)
  52. Abazajian K, Koushiappas S M Phys. Rev. D 74 023527 (2006); Abazajian K, Koushiappas S M astro-ph/0605271
  53. Jungman G, Kamionkowski M, Griest K Phys. Rep. 267 195 (1996); Jungman G, Kamionkowski M, Griest K hep-ph/9506380
  54. Canetti L, Drewes M, Shaposhnikov M Phys. Rev. Lett. 110 061801 (2013); Canetti L, Drewes M, Shaposhnikov M arXiv:1204.3902
  55. Feng J L Annu. Rev. Astron. Astrophys. 48 495 (2010); Feng J L arXiv:1003.0904
  56. Duffy L D, van Bibber K New J. Phys. 11 105008 (2009); Duffy L D, van Bibber K arXiv:0904.3346
  57. Kolb R Modified CERN Academic Lectures on Dark Matter
  58. Adriani O et al. (PAMELA Collab.) Phys. Rev. Lett. 105 121101 (2010); Adriani O et al. (PAMELA Collab.) arXiv:1007.0821
  59. Yuan Q, Bi X-J Phys. Lett. B 727 1 (2013); Yuan Q, Bi X-J arXiv:1304.2687
  60. Beltrame P (XENON Collab.) Proc. of the 48th Rencontres de Moriond on Electroweak Interactions and Unified Theories : La Thuile, Italy, March 2 - 9, 2013 (C13-03-02, Eds E Augé, J Dumarchez, J Trân Thanh Vân) (Paris: Moriond, 2013) p. 143; Beltrame P (XENON Collab.) arXiv:1305.2719
  61. Mitsou V A arXiv:1402.3673
  62. Gagnon P "Can the LHC solve the dark matter mystery?" http://www.quantumdiaries.org/2013/07/12/can-the-lhc-solve-the-dark-matter-mystery/
  63. https://twiki.cern.ch/twiki/pub/CMSPublic/PhysicsResultsCombined/exo-limits-Mar2014.pdf
  64. http://scienceblogs.com/startswithabang/2013/05/15/the-rise-and-fall-of-supersymmetry/
  65. Hall L, J Pinner D, Ruderman J T JHEP (04) 131 (2012); Hall L, J Pinner D, Ruderman J T arXiv:1112.2703
  66. Gladyshev A V, Kazakov D I 2012 European School of High-Energy Physics, ESHEP 2012, 06 - 19 June 2012, La Pommeraye, Anjou, France, Lectures (C12-06-06); Gladyshev A V, Kazakov D I arXiv:1212.2548
  67. CMS Supersymmetry Physics Results, https://twiki. cern.ch/twiki/bin/view/CMSPublic/PhysicsResultsSUS
  68. ATLAS experiment — public results, https://twiki.cern.ch/twiki/bin/view/AtlasPublic/SupersymmetryPublicResults
  69. Aad G et al. (ATLAS Collab.) JHEP 2013 (10) 189 (2013); Aad G et al. (ATLAS Collab.) arXiv:1308.2631
  70. Aad G et al. (ATLAS Collab.) JHEP 2014 (06) 124 (2014); Aad G et al. (ATLAS Collab.) arXiv:1403.4853
  71. The ATLAS Collab. ATLAS-CONF-2013-037; The ATLAS Collab. http://cds.cern.ch/record/1532431
  72. Aad G et al. (ATLAS Collab.) Eur. Phys. J. C 72 2237 (2012); Aad G et al. (ATLAS Collab.) arXiv:1208.4305
  73. Aad G et al. (ATLAS Collab.) Phys. Lett. B 720 13 (2013); Aad G et al. (ATLAS Collab.) arXiv:1209.2102
  74. Aad G et al. (ATLAS Collab.) JHEP 2014 (04) 169 (2014); Aad G et al. (ATLAS Collab.) arXiv:1402.7029
  75. ATLAS Collab. arXiv:1403.5294
  76. ATLAS Collab. ATLAS-CONF-2013-028; ATLAS Collab. https://cds.cern.ch/record/1525889/
  77. ATLAS Collab. ATLAS-CONF-2013-093; ATLAS Collab. http://cds.cern.ch/record/1595756
  78. Kazakov D I Proc. of the 48th Rencontres de Moriond on Electroweak Interactions and Unified Theories: La Thuile, Italy, March 2 - 9, 2013 (C13-03-02, Eds E Augé, J Dumarchez, J Trân Thanh Vân) (Paris: Moriond, 2013) p. 359; Kazakov D I arXiv:1306.6420
  79. Zwirner F Proc. of the 48th Rencontres de Moriond on Electroweak Interactions and Unified Theories: La Thuile, Italy, March 2 - 9, 2013 (C13-03-02, Eds E Augé, J Dumarchez, J Trân Thanh Vân) (Paris: Moriond, 2013) p. 595; Zwirner F arXiv:1310.3292

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