PACS numbers

52.25.−b Plasma properties 52.27.Ny Relativistic plasmas 52.35.Hr Electromagnetic waves (e.g., electron-cyclotron, Whistler, Bernstein, upper hybrid, lower hybrid) 52.75.−d Plasma devices 84.40.−x Radiowave and microwave
  1. E.Z. Gusakov, A.Yu. Popov “Scattering theory of strongly refracting microwaves in turbulent inhomogeneous plasma. Applications of the theory to the description of fluctuation reflectometry in thermonuclear fusion devices63 1114–1139 (2020)
    52.35.Hr, 52.35.Mw, 52.70.−m (all)
  2. E.Z. Gusakov, A.Yu. Popov “Low-power-threshold parametric decay instabilities of powerful microwave beams in toroidal fusion devices63 365–387 (2020)
    52.35.Hr, 52.35.Mw, 52.35.Qz (all)
  3. A.A. Rukhadze, V.P. Silin “From Lord Rayleigh to Professor A.A. Vlasov (from 1906 to 1945)62 691–698 (2019)
    01.65.+g, 52.25.−b (all)
  4. P.S. Strelkov “Experimental plasma relativistic microwave electronics62 465–486 (2019)
    52.75.−d, 84.30.Jc (all)
  5. D.A. Dolgolenko, Yu.A. Muromkin “On separation of mixtures of chemical elements in plasma60 994–1017 (2017)
    28.41.Kw, 52.25.Xz, 52.30.−q, 52.75.−d (all)
  6. V.V. Zheleznyakov, E.Ya. Zlotnik et alDouble plasma resonance ànd its manifestations in radio astronomy59 997–1020 (2016)
    96.60.P−, 96.60.Tf, 97.60.Gb, 52.35.−g, 52.35.Hr, 52.35.Qz (all)
  7. S.A. Pikuz (Jr.), A.Ya. Faenov et alProduction of exotic states of matter with the use of X-rays generated by focusing a petawatt laser pulse onto a solid target57 702–707 (2014)
    32.80.−t, 52.27.Ny, 52.38.Ph, 52.70.La (all)
  8. Advances in astronomy (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 27 February 2013)56 704–737 (2013)
    01.10.Fv, 04.50.−h, 04.70.−s, 07.57.−c, 07.87.+v, 12.10.Kt, 84.40.−x, 89.20.−a, 95.36.+x, 96.12.−a, 96.30.Gc, 97.10.Bt, 97.60.Lf, 97.80.Jp, 98.62.Js, 98.70.Qy, 98.80.−k (all)
  9. A.V. Ipatov “A new generation interferometer for fundamental and applied research56 729–737 (2013)
    01.10.Fv, 07.57.−c, 84.40.−x, 89.20.−a (all)
  10. A.G. Shalashov, E.D. Gospodchikov “Structure of the Maxwell equations in the region of linear coupling of electromagnetic waves in weakly inhomogeneous anisotropic and gyrotropic media55 147–160 (2012)
    41.20.Jb, 42.25.Bs, 52.35.Hr (all)
  11. S.V. Vladimirov, Yu.O. Tyshetskiy “On description of a collisionless quantum plasma54 1243–1256 (2011)
    05.30.Fk, 52.25.−b, 52.35.−g (all)
  12. S. Peigné, A.V. Smilga “Energy losses in relativistic plasmas: QCD versus QED52 659–685 (2009)
    12.38.Mh, 25.75.−q, 52.27.Ny, 61.85.+p (all)
  13. A.R. Aramyan, G.A. Galechyan “Vortices in a gas-discharge plasma50 1147–1169 (2007)
    42.55.−f, 52.20.Hv, 52.75.−d, 52.80.−s (all)
  14. G.I. Kanel, V.E. Fortov, S.V. Razorenov “Shock waves in condensed-state physics50 771–791 (2007)
    52.25.−b, 52.35.Tc, 62.50.+p, 64 (all)
  15. V.F. Kravchenko, A.A. Kuraev, A.K. Sinitsyn “Nonsynchronous interactions50 489–511 (2007)
    07.57.−c, 41.20.Jb, 84.40.−x (all)
  16. V.E. Fortov “Intense shock waves and extreme states of matter50 333–353 (2007)
    52.25.−b, 52.35.Tc, 64. (all)
  17. V.N. Tsytovich “The development of physical ideas concerning the interaction of plasma flows and electrostatic fields in dusty plasmas50 409–451 (2007)
    52.25.−b, 52.27.Lw, 94.05.Bf (all)
  18. V.A. Kotel’nikov “On the transmission capacity of ’ether’ and wire in electric communications49 736–744 (2006)
    01.10.Fv, 84.40.−x, 89.70.+c (all)
  19. B.E. Chertok “V A Kotel’nikov and his role in the development of space radio electronics in our country49 761–765 (2006)
    01.10.Fv, 01.60.+q, 84.40.−x (all)
  20. G.I. Dimov “The ambipolar trap48 1129–1149 (2005)
    28.52.−s, 52.25.−b, 52.55.−s (all)
  21. V.A. Vanke “Transverse electron-beam waves for microwave electronics48 917–937 (2005)
    07.50.−e, 41.75.−i, 84.40.−x, 84.40.Fe (all)
  22. G.A. Mesyats, M.I. Yalandin “High-power picosecond electronics48 211–229 (2005)
    52.59.−f, 52.80.−s, 84.30.Jc, 84.40.−x, 84.70.+p (all)
  23. O.N. Krokhin “The early years of quantum electronics47 1045–1048 (2004)
    01.65.+g, 42.55.−f, 84.40.−x (all)
  24. Yu.M. Popov “On the history of the invention of the injection laser47 1068–1070 (2004)
    01.65.+g, 42.55.−f, 84.40.−x (all)
  25. A.V. Timofeev “Electromagnetic waves in a magnetized plasma near the critical surface47 555–582 (2004)
    41.20.Jb, 52.35.Hr, 52.55.Hc (all)
  26. K.Yu. Platonov, G.D. Fleishman “Transition radiation in media with random inhomogeneities45 235–291 (2002)
    41.60.−m, 52.35.Hr, 95.30.Gv (all)
  27. A.E. Reznikov, V.V. Kopeikin et alDevelopment of apparatus and data processing methods for electromagnetic subsurface probing and experiments with their practical implementation43 521–524 (2000)
    07.05.Kf, 07.57.−c, 07.90.+c, 84.40.−x (all)
  28. M.V. Kuzelev, A.A. Rukhadze “On the quantum description of the linear kinetics of a collisionless plasma42 603–605 (1999)
    52.25.−b, 52.25.Dg, 52.90.+z (all)
  29. Yu.L. Klimontovich “Physics of collisionless plasma40 21–51 (1997)
    52.20.−j, 52.25.−b, 52.90.-z (all)
  30. A.V. Eletskii, B.M. Smirnov “Nonuniform gas discharge plasma39 1137–1156 (1996)
    52.25.−b, 52.90.+z (all)
  31. V.I. Petviashvili “Nonlinear and relativistic effects in plasma35 (10) 902–902 (1992)
    01.30.Vv, 52.35.Mw, 52.35.Hr, 52.35.Qz, 52.35.Ra (all)
  32. B.A. Trubnikov “Constrictions in a relativistic pinch with a longitudinal magnetic field34 (11) 1018–1020 (1991)
    52.27.Ny, 52.58.Lq, 52.65.Kj, 52.80.−s (all)
  33. I.V. Sokolov “The angular momentum of an electromagnetic wave, the Sadovskii effect, and the generation of magnetic fields in a plasma34 (10) 925–932 (1991)
    52.35.Hr, 52.25.Os, 52.40.Db (all)
  34. G.D. Fleishman “Transition radiation of a relativistic particle moving along a curve34 (1) 86–96 (1991)
    41.60.−m, 52.27.Ny, 52.25.Mq (all)
  35. E.P. Velikhov, I. Golovin et alVitalii Dmitrievich Shafranov (on his sixtieth birthday)32 1113–1114 (1989)
    01.60.+q, 52.55.Fa, 52.35.Hr, 52.35.Tc (all)
  36. V.V. Zheleznyakov, V.V. Kocharovskii, V.V. Kocharovskii “Cyclotron superradiance in a plasma as a classical analog of Dicke superradiance30 1009–1010 (1987)
    32.50.+d, 32.80.Bx, 52.35.Hr, 52.35.Qz (all)
  37. M.V. Kuzelev, A.A. Rukhadze et alRelativistic plasma UHF electronics28 724–726 (1985)
    52.27.Ny, 52.75.−d, 52.35.Hr, 52.25.−b, 84.40.−x (all)
  38. G.A. Askar’yan, V.A. Kholodilov “Interaction of a microwave beam with a liquid: energy conversion, possible applications27 885–886 (1984)
    84.40.−x, 52.80.Pi (all)
  39. V.A. Alekseev, V.E. Fortov, I.T. Yakubov “Physical properties of high-pressure plasmas26 99–115 (1983)
  40. Ya.B. Fainberg, N.S. Khizhnyak “Heavy-particle acceleration by charge-density waves in vacuum and in plasma22 116–118 (1979)
    52.40.Mj, 52.35.Py, 52.35.Hr, 52.75.Di (all)
  41. Ya.B. Zel’dovich “Interaction of free electrons with electromagnetic radiation18 79–98 (1975)
    52.25.Kn, 52.25.Dg, 52.35.Hr (all)
  42. M.S. Rabinovich, V.N. Tsytovich “New Collective Methods of Charged-Particle Acceleration17 459–460 (1974)
    41.75.Ht, 29.17.+w, 52.27.Ny, 52.35.Qz (all)
  43. S.M. Osovets “Dynamic methods of confinement and stabilization of hot plasma17 239–262 (1974)
    52.58.Lq, 52.25.−b, 52.35.Py, 52.30.−q, 52.65.Kj (all)
  44. V.P. Silin “Anomalous nonlinear dissipation of high-frequency radio waves in plasma15 742–758 (1973)
    52.35.Mw, 52.35.Hr, 52.35.Py, 52.25.Fi, 52.25.Gj, 52.35.Ra (all)
  45. L.M. Gorbunov “Hydrodynamics of plasma in a strong high-frequency field16 217–235 (1973)
    52.35.Py, 52.35.Hr, 52.35.Mw (all)
  46. N.S. Erokhin, S.S. Moiseev “Problems of the theory of linear and nonlinear transformation of waves in inhomogeneous media16 64–81 (1973)
    52.35.Hr, 52.40.Mj, 52.50.−b, 52.35.Qz (all)
  47. V.E. Golant, A.D. Piliya “Linear transformation and absorption of waves in a Plasma14 413–437 (1972)
    52.25.Os, 52.35.Hr, 52.40.Db (all)
  48. V.E. Golant “Ultrahigh-frequency Methods of Plasma Heating14 540–541 (1972)
    52.50.Qt, 52.55.Jd, 52.25.Os, 52.35.Hr, 52.70.Ds (all)
  49. F.G. Bass, Yu.G. Gurevich “Nonlinear theory of the propagation of electromagnetic waves in a Solid-state plasma and in a Gaseous discharge14 113–124 (1971)
    52.35.Mw, 52.35.Hr, 52.25.Dg, 72.30.+q, 72.20.Ht (all)
  50. V.A. Vanke, V.M. Lopukhin, V.L. Savvin “SUPERNOISELESS CYCLOTRON-WAVE AMPLIFIERS12 743–755 (1970)
    52.35.Hr, 41.75.Fr, 52.35.Fp, 29.20.Hm (all)
  51. Yu.P. Raizer “High-frequency high-pressure induction discharge and the electrodeless plasmotron12 777–791 (1970)
    52.80.Pi, 52.75.−d, 52.25.−b (all)
  52. V.N. Tsytovich “Elementary Excitation and the Physics of Stochastic Processes in a Plasma13 413–414 (1970)
    01.10.Fv, 01.55.+b, 95.10.−a, 52.20.−j, 52.25.−b (all)
  53. S.T. Belyaev, V.A. Sidorov, B.V. Chirikov “Gersh Itskovich Budker (in honor of his 50th birthday)11 916–918 (1969)
    01.60.+q, 29.20.−c, 52.27.Ny (all)
  54. Ya.B. Fainberg “Acceleration of charged particles in a plasma10 750–758 (1968)
    29.17.+w, 52.59.−f, 41.75.Fr, 52.35.Hr (all)
  55. A.G. Sitenko, Yu.A. Kirochkin “Scattering and transformation of waves in a magnetoactive plasma9 430–447 (1966)
    52.25.Os, 52.25.Gj, 52.35.Hr, 52.40.Db (all)
  56. B.Z. Katsenelenbaum “Quasioptical methods of generation and transmission of millimeter waves7 385–400 (1964)
    84.40.−x, 42.15.−i, 42.79.Bh (all)
  57. L.A. Artsimovich “Present state of research in controlled thermonuclear reactions5 1–6 (1962)
    52.35.Py, 52.75.−d, 52.55.Ez, 52.55.Hc, 25.60.Pj, 52.65.Kj (all)
  58. A.A. Rukhadze, V.P. Silin “Linear electromagnetic phenomena in a plasma5 37–52 (1962)
    52.35.Hr, 52.35.Fp (all)
  59. I. Golovin, L.I. Artemenkov et alWork with the experimental thermonuclear system Ogra4 323–331 (1961)
    34.70.+e, 34.80.Ht, 52.25.−b, 52.35.Py (all)
  60. V.L. Ginzburg, A.V. Gurevich “Nonlinear phenomena in a Plasma located in an alternating electromagnetic field3 115–146 (1960)
    52.35.Mw, 52.25.Mq, 52.25.Dg, 52.20.Fs, 52.20.Hv, 52.35.Hr (all)
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