PACS numbers

52.25.Jm Ionization of plasmas 52.40.Mj Particle beam interactions in plasmas 52.50.Gj Plasma heating by particle beams 52.59.−f Intense particle beams and radiation sources
  1. D.B. Abramenko, P.S. Antsiferov et alPlasma-based sources of extreme ultraviolet radiation for lithography and mask inspection62 304–314 (2019)
    42.82.Cr, 52.25.Os, 52.59.−f, 52.70.−m, 52.77.−j (all)
  2. Yu.I. Belchenko, V.I. Davydenko et alStudies of ion and neutral beam physics and technology at the Budker Institute of Nuclear Physics SB RAS61 531–581 (2018)
    29.25.Ni, 29.27.Ac, 29.27.Fh, 29.27.Hj, 41.75.−i, 41.75.Ak, 41.75.Cn, 41.85.−p, 41.85.Ar, 52.50.Dg, 52.50.Gj (all)
  3. A.V. Burdakov, V.V. Postupaev “Multiple-mirror trap: a path from Budker magnetic mirrors to linear fusion reactor61 582–600 (2018)
    28.52.Av, 52.50.Gj, 52.55.Jd (all)
  4. I.A. Kotelnikov, V.T. Astrelin “Theory of plasma emitter of positive ions58 701–718 (2015)
    41.75.Ak, 41.85.Ar, 52.25.Jm, 52.40.Kh, 52.59.Bi, 52.59.Sa, 52.65.−y (all)
  5. M.V. Kuzelev, A.A. Rukhadze “Nonrelativistic quantum theory of stimulated Cherenkov radiation and Compton scattering in a plasma54 375–380 (2011)
    41.60.−m, 52.35.−g, 52.40.Mj (all)
  6. M.V. Kuzelev, A.A. Rukhadze “Spontaneous and stimulated emission induced by an electron, electron bunch, and electron beam in a plasma51 989–1018 (2008)
    41.60.−m, 52.35.−g, 52.40.Mj (all)
  7. V.E. Fortov, D.H.H. Hoffmann, B.Yu. Sharkov “Intense ion beams for generating extreme states of matter51 109–131 (2008)
    28.52.Cx, 52.59.−f, 64.10.+h, 87.53.−j (all)
  8. V.P. Krainov, B.M. Smirnov, M.B. Smirnov “Femtosecond excitation of cluster beams50 907–931 (2007)
    36.40.−c, 52.40.Hf, 52.40.Mj, 61.46.−w (all)
  9. A.A. Andronov, V.L. Bratman et alJoint meeting of the Editorial Board of the Journal ’Izvestiya Vuzov. Radiofizika’ and the Scientific Council of the Institute of Applied Physics of the Russian Academy of Sciences dedicated to the ninetieth birthday of Vitalii Lazarevich Ginzburg (4 October 2006)50 301–303 (2007)
    41.20.Jb, 41.60.Cr, 42.25.Ja, 52.35.Mw, 52.59.−f, 84.40.Ik, 87.10.+e, 94.20.−y, 96.50.S−, 98.70.Sa (all)
  10. V.L. Bratman “Fast moving radiators and their use in high-frequency electronics50 303–308 (2007)
    41.60.Cr, 52.59.−f, 84.40.Ik (all)
  11. A.M. Bykov, I.N. Toptygin “Instabilities of a multicomponent plasma with accelerated particles and magnetic field generation in astrophysical objects50 141–174 (2007)
    52.35.−g, 52.59.−f, 95.30.Qd (all)
  12. 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)
  13. P.E. Belensov “Comments on the article ’Collective ion acceleration in systems with a virtual cathode’47 209–211 (2004)
    41.75.Ak, 52.40.Mj (all)
  14. G.A. Mesyats, S.A. Barengol’ts “Mechanism of anomalous ion generation in vacuum arcs45 1001–1018 (2002)
    52.40.Mj, 52.75.Pv, 52.80.Mg, 52.80.Vp (all)
  15. V.N. Tsytovich, R. Bingham et alCollective plasma processes in the solar interior and the problem of the solar neutrinos deficit39 103–128 (1996)
    96.60.Kx, 52.25.Gj, 52.25.Jm, 52.90.+z (all)
  16. A.M. Ignatov, A.I. Korotchenko et alOn the interpretation of computer simulation of classical Coulomb plasma38 109–114 (1995)
    52.20.−j, 52.25.Jm (all)
  17. S.A. Mayorov, A.N. Tkachev, S.I. Yakovlenko “Comment on the article ’On the interpretation of computer simulation of classical Coulomb plasma’ by A M Ignatov, A I Korotchenko, V P Makarov, A A Rukhadze, A A Samokhin38 113–114 (1995)
    52.20.−j, 52.25.Jm (all)
  18. L.M. Vasilyak, S.V. Kostyuchenko et alFast ionisation waves under electrical breakdown conditions37 247–268 (1994)
    51.50.+v, 52.25.Jm, 52.35.Kt (all)
  19. S.A. Mayorov, A.N. Tkachev, S.I. Yakovlenko “Metastable supercooled plasma37 279–288 (1994)
    52.20.j, 52.25.Jm
  20. V.S. Vorob’ev “Plasma arising during the interaction of laser radiation with solids36 (12) 1129–1157 (1993)
    52.40.Hf, 52.38.−r, 52.25.Fi, 42.60.Jf, 52.25.Jm (all)
  21. G.V. Ovechkin “Erratum: Continuous spectrum of a condensed discharge in a capillary [Sov. Phys. Usp. 35, 520-530 (June 1992)]35 (11) 1002–1002 (1992)
    52.25.Os, 52.80.Mg, 33.55.Be, 52.80.Wq, 32.50.+d, 52.25.Jm (all)
  22. B.M. Smirnov “A book about extreme states of matter35 (7) 627–627 (1992)
    52.25.Kn, 01.30.Vv, 52.25.Fi, 52.25.Jm, 52.25.Os (all)
  23. G.V. Ovechkin “Continuous spectrum of a condensed discharge in a capillary35 (6) 520–530 (1992)
    52.25.Os, 52.80.Mg, 33.55.Be, 52.80.Wq, 32.50.+d, 52.25.Jm (all)
  24. A.A. Rukhadze, N.N. Sobolev, V.V. Sokovikov “Similarity relations for low-temperature nonisothermal discharges34 (9) 827–829 (1991)
    52.80.−s, 52.25.Dg, 52.25.Jm, 52.25.Fi (all)
  25. A.I. Morozov “Development of the principles of a quasi-steady-state plasma accelerator with an intrinsic magnetic field with a power of 109-1011 W33 (7) 576–577 (1990)
    52.59.−f, 52.65.Kj, 52.25.Xz, 52.55.Fa, 52.30.−q (all)
  26. Evgenii Pavlovich Velikhov (on his fiftieth birthday)28 207–208 (1985)
    01.60.+q, 01.10.Cr, 52.75.Fk, 52.25.Jm, 52.55.−s, 52.35.Py (all)
  27. V.P. Kovalenko “Electron bunches in nonlinear collective beam-plasma interaction26 116–137 (1983)
    52.40.Mj, 52.35.Mw (all)
  28. L.S. Bogdankevich, M.V. Kuzelev, A.A. Rukhadze “Plasma microwave electronics24 1–16 (1981)
    52.25.Ps, 52.40.Mj
  29. 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)
  30. M.D. Gabovich “Ion-beam plasma and the propagation of intense compensated ion beams20 134–148 (1977)
    52.50.Dg, 52.40.Mj, 52.35.Mw (all)
  31. L.I. Gudzenko, L.A. Shelepin, S.I. Yakovlenko “Amplification in recombining plasmas (plasma lasers)18 848–863 (1975)
    52.38.−r, 52.59.−f, 52.25.Jm, 32.80.Bx (all)
  32. G. Wallis, K. Sauer et alInjection of high-current relativistic electron beams into plasma and gas17 492–506 (1975)
    52.59.−f
  33. E.K. Zavoiskii “Energetics in Fast Thermonuclear Processes15 841–843 (1973)
    89.30.Jj, 52.55.Pi, 52.80.Qj, 52.38.Hb, 52.50.Gj, 52.25.Fi (all)
  34. 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)
  35. A.A. Kolomenskii, M.S. Rabinovich, Ya.B. Fainberg “Collective Methods of Particle Acceleration in a Plasma and in Heavy-Current Electron Beams15 366–366 (1972)
    52.59.−f
  36. L.S. Bogdankevich, A.A. Rukhadze “Problems of Heavy-current Relativistic Electron Beams15 366–367 (1972)
    52.50.Gj, 52.59.−f, 52.40.Mj, 52.25.Jm (all)
  37. M.V. Nezlin “Instability of beams of charged particles in a Plasma13 608–627 (1971)
    52.35.Qz, 52.50.Gj (all)
  38. L.S. Bogdankevich, A.A. Rukhadze “Stability of relativistic electron beams in a Plasma and the problem of critical currents14 163–179 (1971)
    52.59.−f, 52.35.−g (all)
  39. 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)
  40. A.V. Gurevich, E.E. Tsedilina “Motion and spreading of inhomogeneities in a plasma10 214–236 (1967)
    52.25.Fi, 52.25.Dg, 52.25.Jm (all)
  41. F.Kh. Baibulatov “Demonstration of deionization of a mercury plasma9 451–452 (1966)
    52.25.Jm
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