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Issue 4, 2024
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PACS numbers

12.60.−i Models beyond the standard model 29.40.−n Radiation detectors 95.35.+d Dark matter
  1. B.K. Lubsandorzhiev “Photon detectors for neutrino telescopes67 (4) (2024)
    29.40.−n, 85.60.Ha, 95.55.−n (all)
  2. M.N. Achasov, V.E. Blinov et alExperiments at the Super Charm-Tau factory67 55–70 (2024)
    12.38.−t, 12.60.−i, 29.20.db (all)
  3. S.N. Vergeles, N.N. Nikolaev et alGeneral relativity effects in precision spin experimental tests of fundamental symmetries66 109–147 (2023)
    03.65.Sq, 04.20.Cv, 04.62.+v, 11.30.Fs, 12.60.−i, 14.80.Va, 29.20.db, 29.27.Hj (all)
  4. E.E. Boos “The SMEFT formalism: the basis for finding deviations from the Standard Model65 653–676 (2022)
    12.15.−y, 12.60.−i, 14.80.Bn (all)
  5. Ch. Spiering “50 years Institute for Nuclear Research: exploring the high-energy universe64 1198–1213 (2021)
    01.65.+g, 29.40.−n, 95.55.Vj (all)
  6. S.N. Gninenko, N.V. Krasnikov, V.A. Matveev “Search for light dark matter in the NA64 experiment64 1286–1310 (2021)
    12.60.−i, 12.60.Cn, 13.20.Cz (all)
  7. A.B. Aleksandrov, A.B. Dashkina et alSearch for weakly interacting massive dark matter particles: state of the art and prospects64 861–889 (2021)
    95.35.+d
  8. M.I. Vysotsky, E.V. Zhemchugov “Equivalent photons in proton and ion—ion collisions at the LHC62 910–919 (2019)
    12.20.−m, 12.60.−i, 13.60.−r (all)
  9. B. Heinemann, Y. Nir “The Higgs program and open questions in particle physics and cosmology62 920–930 (2019)
    12.10.−g, 12.60.−i, 14.80.−j (all)
  10. A.P. Serebrov “Disagreement between measurements of the neutron lifetime by the ultracold neutron storage method and the beam technique62 596–601 (2019)
    06.20.−f, 12.60.−i, 14.20.Dh (all)
  11. D.I. Kazakov “Prospects of elementary particle physics62 364–377 (2019)
    11.25.−w, 12.10.−g, 12.60.−i (all)
  12. A.V. Zasov, A.S. Saburova et alDark matter in galaxies60 3–39 (2017)
    95.35.+d, 98.62.Dm, 98.62.Gq (all)
  13. V.A. Bednyakov, I.V. Yeletskikh et alAnomalously interacting Z* bosons — an example of JINR contribution to physics at LHC59 403–410 (2016)
    12.15.−y, 12.60.−i, 13.85.−t, 14.80.−j (all)
  14. E.E. Boos, O. Brandt et alThe top quark (20 years after the discovery)58 1133–1158 (2015)
    12.10.−g, 12.38.−t, 12.60.−i, 14.65.Ha (all)
  15. A.P. Serebrov “Fundamental interactions involving neutrons and neutrinos: reactor-based studies led by the Petersburg Nuclear Physics Institute (National Research Center "Kurchatov Institute") [PNPI (NRC KI)]58 1074–1094 (2015)
    11.30.Er, 12.60.−i, 14.20.Dh, 14.60.St (all)
  16. V.I. Dokuchaev, Yu.N. Eroshenko “Physical laboratory at the center of the Galaxy58 772–784 (2015)
    95.35.+d, 97.60.Lf, 98.35.Gi, 98.35.Jk (all)
  17. E.E. Boos “Standard Model and predictions for the Higgs boson57 912–923 (2014)
    12.15.−y, 12.60.−i, 14.80.Bn (all)
  18. A.V. Lanev “CMS results: Higgs boson and search for new physics57 923–930 (2014)
    11.30.−j, 12.15.−y, 12.60.−i, 14.70.−e, 14.80.Bn, 95.35.+d (all)
  19. D.I. Kazakov “The Higgs boson is found: what is next?57 930–942 (2014)
    12.15.−y, 12.60.−i, 14.80.−j (all)
  20. D.S. Gorbunov “Sterile neutrinos and their roles in particles physics and cosmology57 503–511 (2014)
    12.60.−i, 14.60.Pq, 95.30.Cq (all)
  21. S.I. Blinnikov “Mirror matter and other dark matter models57 183–188 (2014)
    12.60.−i, 95.30.−k, 95.35.+d (all)
  22. A.D. Dolgov “Cosmology: from Pomeranchuk to the present day57 199–208 (2014)
    95.35.+d, 95.36.+x, 98.80.−k (all)
  23. V.S. Berezinsky, V.I. Dokuchaev, Yu.N. Eroshenko “Small scale clumps of dark matter57 1–36 (2014)
    14.80.Nb, 95.35.+d, 98.70.Rz (all)
  24. From the history of physics (Scientific session of the General Meeting of the Physical Sciences Division of the Russian Academy of Sciences, 17 December 2012)56 486–530 (2013)
    01.10.Fv, 01.65.+g, 04.20.−q, 28.52.−s, 28.70.+y, 42.79.Gn, 42.81.Qb, 89.20.Dd, 95.35.+d, 95.55.−n, 98.80.−k (all)
  25. A.M. Cherepashchuk “History of the Universe History56 509–530 (2013)
    01.10.Fv, 01.65.+g, 04.20.−q, 95.35.+d, 95.55.−n, 98.80.−k (all)
  26. V.A. Rubakov “Large Hadron Collider’s discovery of a new particle with Higgs boson properties55 949–957 (2012)
    12.15.−y, 12.60.−i, 14.80.Bn (all)
  27. L.B. Okun “Particle physics prospects: August 198155 958–962 (2012)
    01.10.Fv, 12.15.−y, 12.60.−i, 14.80.−j (all)
  28. L.B. Okun “Epilogue to the discovery of a particle similar to the Higgs boson: August 201255 963–964 (2012)
    01.30.Ww, 01.65.+g, 12.10.−g, 12.60.−i (all)
  29. S.N. Gurbatov, A.I. Saichev, S.F. Shandarin “Large-scale structure of the Universe. The Zeldovich approximation and the adhesion model55 223–249 (2012)
    95.35.+d, 95.36.+x, 98.65.−r (all)
  30. A.G. Doroshkevich, V.N. Lukash, E.V. Mikheeva “A solution to the problems of cusps and rotation curves in dark matter halos in the cosmological standard model55 3–17 (2012)
    95.35.+d, 98.62.Gq, 98.62.Js (all)
  31. S.V. Troitsky “Unsolved problems in particle physics55 72–95 (2012)
    11.90.+t, 12.10.−g, 12.38.−t, 12.60.−i (all)
  32. V.N. Lukash, E.V. Mikheeva, A.M. Malinovsky “Formation of the large-scale structure of the Universe54 983–1005 (2011)
    95.35.+d, 95.36.+x, 98.65.−r (all)
  33. Yu.G. Kudenko “Study of neutrino oscillations in long-baseline accelerator experiments54 549–572 (2011)
    12.60.−i, 14.60.Pq, 25.30.Pt (all)
  34. In memory of V L Ginzburg (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 27 October 2010)54 633–653 (2011)
    01.10.Fv, 12.60.−i, 95.35.+d, 98.80.−k (all)
  35. V.A. Rubakov “Cosmology and the Large Hadron Collider54 633–641 (2011)
    12.60.−i, 95.35.+d, 98.80.−k (all)
  36. A.V. Zasov, O.K. Sil’chenko “Galactic disks and their evolution53 415–419 (2010)
    95.35.+d, 98.62.Hr, 98.65.−r (all)
  37. V.V. Burdyuzha “Dark components of the Universe53 419–424 (2010)
    95.35.+d, 95.36.+x, 98.80.Cq (all)
  38. I.M. Dremin “Physics at the Large Hadron Collider52 541–548 (2009)
    12.10.−g, 12.60.−i, 29.20.db (all)
  39. I.F. Ginzburg “Unsolved problems in fundamental physics52 495–498 (2009)
    01.70.+w, 11.15.−q, 12.60.−i (all)
  40. V.A. Ryabov, V.A. Tsarev, A.M. Tskhovrebov “The search for dark matter particles51 1091–1121 (2008)
    12.60.−i, 29.40.−n, 95.35.+d (all)
  41. V.A. Rubakov, P.G. Tinyakov “Infrared-modified gravities and massive gravitons51 759–792 (2008)
    04.50.+h, 11.10.Lm, 95.35.+d (all)
  42. V.N. Lukash, V.A. Rubakov “Dark energy: myths and reality51 283–289 (2008)
    95.35.+d, 98.80.−k (all)
  43. A.E. Bondar, P.N. Pakhlov, A.O. Poluektov “Observation of CP violation in B-meson decays50 669–690 (2007)
    11.15.Ex, 11.30.Fs, 12.60.−i, 13.20.He, 14.40.Nd (all)
  44. S.P. Denisov “Transition radiation: scientific implications and applications in high-energy physics50 377–379 (2007)
    01.10.Fv, 01.65.+g, 29.40.−n, 41.60.−m (all)
  45. L.B. Okun “Mirror particles and mirror matter: 50 years of speculation and searc50 380–389 (2007)
    01.10.Fv, 01.65.+g, 11.30.Er, 12.60.−i (all)
  46. V.A. Rubakov “Hierarchies of fundamental constants (to items Nos 16, 17, and 27 from Ginzburg’s list)50 390–396 (2007)
    01.10.Fv, 12.60.−i, 95.35.+d, 95.36.+x (all)
  47. Ch. Grojean “New approaches to electroweak symmetry breaking50 1–35 (2007)
    12.15.−y, 12.60.−i, 14.80.Bn, 14.80.Cp (all)
  48. V.A. Ryabov “Ultrahigh-energy neutrinos from astrophysical sources and superheavy particle decays49 905–936 (2006)
    12.60.−i, 13.15.+g, 95.55.Vj, 95.85.Ry, 96.50.S− (all)
  49. N.V. Krasnikov, V.A. Matveev “The search for new physics at the Large Hadron Collider47 643–670 (2004)
    12.10.−g, 12.60.−i, 14.80.Bn (all)
  50. L.G. Landsberg “Flavor changing neutral currents and rare decays of K-mesons46 995–1051 (2003)
    11.30.Er, 12.10.Dm, 12.60.−i, 13.20.Eb (all)
  51. V.A. Rubakov “Large and infinite extra dimensions44 871–893 (2001)
    04.50.+b, 11.25.Mj, 12.60.−i (all)
  52. E.P. Shabalin “What can be expected from the further study of CP and T symmetry violation and CPT invariance tests44 895–918 (2001)
    11.30.Er, 12.15.Hh, 12.60.−i (all)
  53. M.I. Vysotskii, R.B. Nevzorov “Selected problems of supersymmetry phenomenology44 919–930 (2001)
    12.10.−g, 12.60.Jv, 14.80.Cp, 95.35.+d (all)
  54. A. Bettini “Physics beyond the Standard Model: experiments at the Gran Sasso Laboratory44 931–954 (2001)
    12.60.−i, 14.60.Pq, 26.65.+t, 95.35.+d (all)
  55. I.D. Novikov, I.D. Karachentsev et alScientific session of the Division of General Physics and Astronomy of the Russian Academy of Sciences (28 February, 2001)44 817–818 (2001)
    01.10.Fv, 95.85.Bh, 98.80.Cq, 98.80.Es, 95.35.+d, 98.65.−r, 04.70.-S, 97.80.Jp, 98.35.Jk, 47.37.+q, 97.60.Gb, 97.60.Jd (all)
  56. I.D. Karachentsev “Hidden mass in the Local Universe44 818–821 (2001)
    95.35.+d, 98.65.−r (all)
  57. A.F. Zakharov, M.V. Sazhin “Gravitational microlensing41 945–982 (1998)
    95.35.+d, 98.35.−a (all)
  58. M.V. Danilov “Search for CP violation in B-meson decays41 559–568 (1998)
    11.15.Ex, 11.30.Fs, 12.60.−i, 13.20.He, 14.40.Nd (all)
  59. I.B. Khriplovich “The discovery of the nuclear anapole moment40 1161–1162 (1997)
    11.30.−j, 12.60.−i, 24.80.-x (all)
  60. A.V. Gurevich, K.P. Zybin, V.A. Sirota “Small-scale structure of dark matter and microlensing40 869–898 (1997)
    95.35.+d, 98.35.−a (all)
  61. A.V. Semenov “Observation of very-large-Q2 anomalous events in ep collisions on the HERA collider40 739–740 (1997)
    12.60.−i, 13.90.+i, 29.90.+r (all)
  62. A.V. Gurevich, K.P. Zybin “Large-scale structure of the Universe. Analytic theory.38 687–722 (1995)
    98.80.Cq, 95.35.+d, 98.62.Ai (all)
  63. A.P. Aleksandrov, A.F. Apalin et alPetr Efimovich Spivak (on his eightieth birthday)34 (7) 639–640 (1991)
    01.60.+q, 14.60.Pq, 23.40.−s, 13.30.Eg, 14.20.Dh, 29.40.−n (all)
  64. M.I. Zel’nikov “Gravitational lenses34 (2) 211–211 (1991)
    95.30.Sf, 98.54.Aj, 98.65.−r, 95.35.+d (all)
  65. Ya.A. Smorodinskii “The early universe32 943–943 (1989)
    01.30.Vv, 98.80.Es, 98.80.Cq, 95.35.+d (all)
  66. Yu.A. Aleksandrov “Experimental techniques in nuclear and elementary particle physics31 1040–1040 (1988)
    01.30.Vv, 29.50.+v, 07.05.Wr, 29.40.−n (all)
  67. V.M. Rappoport “New data on lifetimes of short-lived particles27 294–300 (1984)
    13.66.Bc, 14.40.Nd, 13.20.He, 14.40.Lb, 14.60.Fg, 29.40.−n (all)
  68. A.P. Aleksandrov, S.T. Belyaev et alViktor Konstantinovich Voitovetskii (Obituary)27 79–80 (1984)
    01.60.+q, 29.17.+w, 29.40.−n (all)
  69. A.N. Skrinskii “Accelerator and detector prospects of elementary particle physics25 639–661 (1982)
    29.15.Dt, 29.20.−c, 29.40.−n, 29.25.Fb (all)
  70. V.A. Akulichev, L.R. Gavrilov et alInfluence of Ultrasound on the Formation of High-energy Particle Tracks in a Liquid-hydrogen Bubble Chamber12 693–695 (1970)
    29.40.−n, 14.40.Aq, 43.35.Yb (all)
  71. V.L. Ginzburg, V.N. Sazonov, S.I. Syrovatskii “Synchrotron radiation and its reabsorption11 34–48 (1968)
    41.60.Ap, 29.20.Lq, 41.60.Bq, 29.40.−n (all)
  72. G.P. Mel’nikov “The measurement of multidimensional spectra in nuclear physics4 370–373 (1961)
    84.30.Sk, 29.40.−n (all)
  73. A.I. Akishin “Detection of ion beams by electron multipliers in mass spectrometry and nuclear physics1 113–123 (1958)
    29.40.−n, 41.75.Fr, 07.75.+h, 85.60.Ha, 25.40.−h, 27.20.+n (all)
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