PACS numbers

04.25.dg Numerical studies of black holes and black-hole binaries 97.10.Gz Accretion and accretion disks 97.60.Jd Neutron stars
  1. S.B. Popov, K.A. Postnov, M.S. Pshirkov “Fast radio bursts61 965–979 (2018)
    95.85.Bh, 95.85.Fm, 97.60.Jd (all)
  2. D.H. Reitze “The first detections of gravitational waves emitted from binary black hole mergers60 823–829 (2017)
    04.25.dg, 04.30.−w, 04.80.Nn, 95.55.Ym (all)
  3. D.N. Razdoburdin, V.V. Zhuravlev “Transient dynamics of perturbations in astrophysical disks58 1031–1058 (2015)
    02.30.−f, 02.60.Pn, 47.32.C−, 97.10.Gz, 97.82.Jw, 98.62.Mw (all)
  4. V.V. Zhuravlev “Analytical models of relativistic accretion disks58 527–555 (2015)
    04.20.Cv, 04.70.Bw, 47.10.A−, 47.10.ad, 97.10.Gz (all)
  5. A.Y. Potekhin “Atmospheres and radiating surfaces of neutron stars57 735–770 (2014)
    97.10.Ex, 97.10.Ld, 97.60.Jd (all)
  6. M.A. Scheel, K.S. Thorne “Geometrodynamics: the nonlinear dynamics of curved spacetime57 342–351 (2014)
    04.20.−q, 04.25.dg, 04.25.dc, 04.50.Gh (all)
  7. A.M. Cherepashchuk “Black holes in binary stellar systems and galactic nuclei57 359–376 (2014)
    04.70.Bw, 97.60.Jd, 98.54.−h (all)
  8. M.R. Gil’fanov, R.A. Syunyaev “Radiation-dominated boundary layer between accretion disc and neutron star surface: theory and observations57 377–388 (2014)
    97.10.Gz, 97.60.Jd, 97.80.−d (all)
  9. N.I. Shakura “Academician Zeldovich and the foundations of disk accretion57 407–412 (2014)
    04.25.dg, 97.10.Gz, 97.60.Jd (all)
  10. N.I. Shakura, K.A. Postnov et alQuasi-spherical subsonic accretion in X-ray pulsars56 321–346 (2013)
    95.30.Lz, 97.10.Gz, 97.80.Jp, 98.70.Qy (all)
  11. D.G. Yakovlev, P. Haensel et alL D Landau and the concept of neutron stars56 289–295 (2013)
    01.65.+g, 26.60.−c, 97.60.Jd (all)
  12. Challenges in astrophysics (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 25 January 2012)55 929–941 (2012)
    01.10.Fv, 26.60.−c, 52.35.−g, 67.10.−j, 96.60.−j, 97.10.Sj, 97.60.Jd (all)
  13. P.S. Shternin, D.G. Yakovlev “Superfluid neutron stars55 935–941 (2012)
    26.60.−c, 67.10.−j, 97.60.Jd (all)
  14. A.G. Zhilkin, D.V. Bisikalo, A.A. Boyarchuk “Flow structure in magnetic close binary stars55 115–136 (2012)
    52.30.−q, 97.10.Gz, 97.80.−d (all)
  15. A.M. Cherepashchuk “Optical investigations of X-ray binary systems54 1061–1067 (2011)
    97.60.Jd, 97.60.Lf, 97.80.−d (all)
  16. Astrophysics and astronomy (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 26 January 2011)54 1061–1084 (2011)
    01.10.Fv, 04.20.−q, 11.27.+d, 89.60.Gg, 96.30.Cw, 96.30.Ys, 97.60.Jd, 97.60.Lf, 97.80.−d, 97.82.−j, 98.62.Sb, 98.80.Es (all)
  17. A.Yu. Potekhin “The physics of neutron stars53 1235–1256 (2010)
    26.60.−c, 97.60.Gb, 97.60.Jd (all)
  18. V.V. Klimov, Ya.N. Istomin, Yu.A. Kosevich “Plasma phenomena in nanostructures and neutron stars. Scientific session of the Physical Sciences Division of the Russian Academy of Sciences (26 March 2008)51 839–859 (2008)
    01.10.Fv, 01.30.Cc, 61.46.Bc, 71.45.Gm, 81.07.−b, 52.27.Ep, 97.10.Ld, 97.60.Jd, 63.20.kp, 63.22.−m (all)
  19. Ya.N. Istomin “Electron — positron plasma generation in the magnetospheres of neutron stars51 844–848 (2008)
    52.27.Ep, 97.10.Ld, 97.60.Jd (all)
  20. A.M. Fridman, D.V. Bisikalo “The nature of accretion disks of close binary stars: overreflection instability and developed turbulence51 551–576 (2008)
    47.27.−i, 97.10.Gz, 97.80.−d (all)
  21. S.B. Popov, M.E. Prokhorov “Population synthesis in astrophysics50 1123–1146 (2007)
    97.10.−q, 97.60.Jd, 97.80.−d (all)
  22. V.S. Beskin “Axisymmetric steady flows in astrophysics46 1209–1214 (2003)
    04.70.−s, 95.30.Qd, 97.10.Gz (all)
  23. 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)
  24. D.G. Yakovlev “Superfluidity in neutron stars44 823–826 (2001)
    47.37.+q, 97.60.Gb, 97.60.Jd (all)
  25. D.G. Yakovlev, K.P. Levenfish, Yu.A. Shibanov “Cooling of neutron stars and superfluidity in their cores42 737 (1999)
    04.40.−b, 26.60.+c, 95.30.−k, 97.60.Jd (all)
  26. G.M. Beskin, S.N. Mitronova et alInvestigations of relativistic and rapidly varying objects with high temporal resolution37 616–618 (1994)
    97.60.Jd, 97.60.Lf, 97.30.−b, 97.30.Nr (all)
  27. D.M. Sedrakyan, K.M. Shakhabasyan “Superfluidity and the magnetic field of pulsars34 (7) 555–571 (1991)
    97.60.Gb, 97.60.Jd, 26.60.+c, 97.10.Ld, 97.10.Cv (all)
  28. V.G. Ryasnyĭ “Supernova shells33 (5) 393–395 (1990)
    97.60.Bw, 96.10.+i, 97.60.Gb, 97.60.Jd, 96.60.qe (all)
  29. N.N. Chugai “Supernova in the Large Magellanic Cloud: first year of observations31 775–776 (1988)
    97.60.Bw, 98.56.Si, 97.60.Jd, 97.10.Fy, 97.10.Ri (all)
  30. G.S. Bisnovatyi-Kogan “Gravitational collapse, neutrino radiation, and supernova light curves31 776–777 (1988)
    97.60.Bw, 95.30.Sf, 95.55.Qf, 95.75.De, 97.20.Rp, 97.10.Gz (all)
  31. V.S. Beskin “Neutron stars and equation of state of nuclear matter30 733–736 (1987)
    21.65.+f, 26.60.+c, 97.60.Jd, 97.10.Kc (all)
  32. I.M. Kopylov “Spectral observations of binary systems with relativistic companions using the six-meter telescope29 981–983 (1986)
    97.20.Pm, 97.80.Jp, 97.10.Ri, 97.10.Gz, 97.10.Ex (all)
  33. B.M. Vladimirskii, A.M. Gal’per et alCygnus X-3: a powerful galactic source of hard radiation28 153–169 (1985)
    98.70.Dk, 98.70.Qy, 98.70.Rz, 97.60.Gb, 97.60.Jd, 97.60.Lf (all)
  34. G.S. Bisnovatyi-Kogan, V.M. Chechetkin “Nonequilibrium shells of neutron stars and their role in sustaining x-ray emission and nucleosynthesis22 89–108 (1979)
    97.60.Jd, 97.10.Cv (all)
  35. O.F. Prilutskii, I.L. Rozenthal’, V.V. Usov “On the Nature of Bursts of Cosmic γ Radiation17 607–607 (1975)
    01.10.Fv, 98.70.Rz, 97.20.Rp, 97.60.Jd, 97.60.Lf, 98.70.Vc (all)
  36. M.A. Markov “The future of physics (future generations of particle accelerators)16 913–925 (1974)
    29.17.+w, 98.54.Aj, 97.60.Jd, 97.60.Lf, 41.75.Fr (all)
  37. Ya.B. Zel’dovich “Neutron Stars and ’Black Holes’16 559–561 (1974)
    97.60.Jd, 97.60.Lf, 97.10.Kc, 97.10.Cv, 97.80.Jp, 97.60.Gb (all)
  38. V.L. Ginzburg “PULSARS (Theoretical Concepts)14 83–103 (1971)
    97.60.Gb, 97.60.Jd, 97.10.Ld, 97.10.Ri (all)
  39. S.B. Pikel’ner “Magnetic Hydrodynamics of Solar Formations14 228–229 (1971)
    97.60.Gb, 97.60.Jd, 97.20.Rp, 98.35.Ac (all)
  40. V.L. Ginzburg “Pulsars — Present State of the Problem14 229–230 (1971)
    97.60.Gb, 97.60.Jd, 97.10.Ri (all)
  41. Ya.G. Dorfman “New Results from the Study of Plato’s Physics14 230–231 (1971)
    97.60.Gb, 97.60.Jd (all)
  42. V.L. Ginzburg “What problems of physics and astrophysics are of special importance and interest at present?14 21–39 (1971)
    74.72.−h, 71.35.−y, 04.30.−w, 98.80.Jk, 95.30.Sf, 97.60.Jd (all)
  43. V.V. Zheleznyakov “Mechanisms of Pulsar Radiation12 807–808 (1970)
    97.60.Gb, 97.60.Jd, 41.60.Ap (all)
  44. I.S. Shklovskii “Concerning Pulsars12 808–809 (1970)
    97.60.Gb, 97.60.Jd (all)
  45. V.V. Vitkevich, Yu.P. Shitov, I.F. Malov “Concerning the Model of a Pulsar as a Rotating and Pulsating Neutron Star12 809–810 (1970)
    97.60.Gb, 97.60.Jd, 97.10.Sj, 97.10.Kc (all)
  46. V.L. Ginzburg, V.V. Zheleznyakov, V.V. Zaitsev “Coherent radio-emission mechanisms and magnetic pulsar models12 378–398 (1969)
    97.60.Gb, 97.10.Sj, 97.20.Rp, 97.60.Jd (all)
  47. Ya.B. Zel’dovich, I.D. Novikov “Relativistic astrophysics. II8 522–577 (1966)
    97.10.Kc, 97.10.Cv, 97.10.Gz, 97.60.Jd, 95.30.Qd, 98.54.Aj (all)
  48. Ya.B. Zel’dovich, I.D. Novikov “Relativistic astrophysics. I7 763–788 (1965)
    95.30.Tg, 97.10.Nf, 97.60.Jd, 97.10.Cv, 95.30.Sf (all)
  49. D.A. Frank-Kamenetskii “The origin of the chemical elements2 600–619 (1959)
    98.80.Bp, 97.10.Cv, 97.10.Bt, 97.10.Ex, 97.60.Jd (all)
  50. D.V. Bisikalo, A.G. Zhilkin, E.P. Kurbatov “Possible electromagnetic manifestations of merging black holes”, accepted
    04.25.dg, 04.80.Nn, 97.10.Gz, 47.40.−x (all)
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