PACS numbers

41.60.−m Radiation by moving charges 41.75.Fr Electron and positron beams 42.79.Dj Gratings
  1. A.A. Bryazgin, N.K. Kuksanov, R.A. Salimov “Industrial electron accelerators developed at the Budker Institute of Nuclear Physics, SB RAS (BINP)61 601–612 (2018)
    07.77.Ka, 29.20.−c, 41.75.Fr (all)
  2. V.S. Malyshevsky “Is it possible to measure the electromagnetic radiation of an instantly started charge?60 1294–1301 (2017)
    03.50.De, 41.60.−m (all)
  3. M.Yu. Glyavin, G.G. Denisov et alHigh power terahertz sources for spectroscopy and material diagnostics59 595–604 (2016)
    07.57.−c, 41.60.−m, 84.40.Ik (all)
  4. M.K. Eseev, I.N. Meshkov “Traps for storing charged particles and antiparticles in high precision experiments59 304–317 (2016)
    37.10.Ty, 41.75.Fr, 52.27.Ep, 52.27.Jt (all)
  5. N.A. Vinokurov, E.B. Levichev “Undulators and wigglers for production of radiation and other applications58 850–871 (2015)
    03.50.De, 07.85.Qe, 41.60.−m (all)
  6. A.V. Shchagin “Fresnel coefficients for parametric X-ray (Cherenkov) radiation58 819–827 (2015)
    41.20.Jb, 41.60.−m, 42.25.Bs, 61.80.Cb (all)
  7. V.I. Ritus “Duality of two-dimensional field theory and four-dimensional electrodynamics leading to finite value of the bare charge56 565–589 (2013)
    03.70.+k, 12.20.−m, 41.60.−m (all)
  8. 120th anniversary of the birth of Sergei Ivanovich Vavilov (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 30 March 2011)54 1257–1283 (2011)
    01.10.Fv, 01.65.+g, 01.70.+w, 03.30.+p, 41.60.−m, 42.50.−p, 42.65.−k, 42.70.−a, 78.47.−p, 78.55.−m, 85.60.−q (all)
  9. E.B. Aleksandrov, P.A. Aleksandrov et alDirect experimental demonstration of the second special relativity postulate: the speed of light is independent of the speed of the source54 1272–1278 (2011)
    01.65.+g, 03.30.+p, 41.60.−m (all)
  10. 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)
  11. A.I. Nikishov, V.I. Ritus “Gravitational radiation of systems and the role of their force field53 1093–1122 (2010)
    04.20.−q, 04.30.−w, 41.60.−m (all)
  12. D.V. Karlovets “On dual representation in classical electrodynamics53 817–824 (2010)
    41.60.−m, 41.20.−q, 42.25.Fx (all)
  13. 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)
  14. I.N. Toptygin, G.D. Fleishman “Eigenmode generation by a given current in anisotropic and gyrotropic media51 363–374 (2008)
    03.50.De, 41.20.Jb, 41.60.−m (all)
  15. V.N. Tsytovich “Polarization effects in a medium: from Vavilov-Cherenkov radiation and transition radiation to dust-particle pairing, or the development of one of V L Ginzburg’s ideas from 1940 to 200650 545–553 (2007)
    01.10.Fv, 41.60.−m, 52.20.−j, 52.27.Lw (all)
  16. 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)
  17. V.F. Tarasenko, S.I. Yakovlenko “On the electron runaway effect and the generation of high-power subnanosecond beams in dense gases49 767–770 (2006)
    41.75.Fr, 51.50.+v, 52.80.Dy (all)
  18. L.P. Babich “Analysis of a new electron-runaway mechanism and of record-high runaway-electron currents achieved in dense-gas discharges48 1015–1037 (2005)
    41.75.Fr, 51.50.+v, 52.80.Dy (all)
  19. V.F. Tarasenko, S.I. Yakovlenko “The electron runaway mechanism in dense gases and the production of high-power subnanosecond electron beams47 887–905 (2004)
    41.75.Fr, 51.50.+v, 52.80.Dy (all)
  20. M.L. Ter-Mikhaelyan “High energy electromagnetic processes in amorphous and inhomogeneous media46 1231–1252 (2003)
    34.50.Dy, 41.20.−q, 41.60.−m (all)
  21. 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)
  22. V.L. Ginzburg “Some remarks on the radiation of charges and multipoles uniformly moving in a medium45 341–344 (2002)
  23. M.L. Ter-Mikhaelyan “Electromagnetic radiative processes in periodic media at high energies44 571–596 (2001)
    29.40.Wk, 41.60.−m, 61.80.Fe, 61.85.+p (all)
  24. B.M. Bolotovskii, E.A. Galst’yan “Diffraction and diffraction radiation43 755–775 (2000)
    41.60.−m, 41.90.+e, 42.25.Fx, 61.14.−x (all)
  25. V.L. Ginzburg “Radiation by uniformly moving sources (Vavilov-Cherenkov effect, transition radiation, and other phenomena)39 973–982 (1996)
    41.60.−m, 41.60.Bq, 41.90.+e (all)
  26. V.A. Bordovitsyn, I.M. Ternov, V.G. Bagrov “Spin light38 1037–1047 (1995)
  27. V.I. Kurilko, Yu.V. Tkach “Physical mechanisms of generation of coherent radiation in an ultrarelativistic free-electron laser38 231–251 (1995)
    41.60.Cr, 41.75.Fr (all)
  28. V.N. Tsytovich “Collective effects of plasma particles in bremsstrahlung38 87–108 (1995)
    41.60.−m, 52.20.−j, 52.25.Gj, 52.90.+z (all)
  29. L.A. Ageev, Kh.I. El’-Ashkhab “Planar spectroscope or continuous-spectrum hologram based on self-organizing TE-gratings35 (9) 793–795 (1992)
    07.60.Rd, 42.40.Eq, 42.79.Dj (all)
  30. B.M. Bolotovskii, S.N. Stolyarov “Erratum: Radiation from and energy loss by charged particles in moving media [Sov. Phys. Usp. 35, 143-150 (February 1992)]35 (7) 628–628 (1992)
    41.60.−m, 41.20.−q (all)
  31. B.M. Bolotovskii, S.N. Stolyarov “Law of conservation of energy for the electromagnetic field as applied to radiation by moving charged particles35 (3) 248–254 (1992)
    45.20.df, 41.60.−m (all)
  32. B.M. Bolotovskii, S.N. Stolyarov “Radiation from and energy loss by charged particles in moving media35 (2) 143–150 (1992)
    41.60.−m, 41.20.−q (all)
  33. Yu.A. Bashmakov “Frontiers of particle beams: observation, diagnosis, and correction34 (2) 208–210 (1991)
    29.20.Dh, 41.75.Fr, 29.27.Bd, 29.27.Fh (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. L.M. Barkov, S.T. Belyaev et alVeniamin Aleksandrovich Sidorov (in celebration of his sixtieth birthday)33 (12) 1076–1077 (1990)
    01.60.+q, 21.10.Ma, 29.17.+w, 24.10.Pa, 41.75.Fr (all)
  36. V.G. Baryshevskii, V.V. Tikhomirov “Synchrotron-type radiation processes in crystals and polarization phenomena accompanying them32 1013–1032 (1989)
    41.60.Ap, 29.17.+w, 41.75.Fr, 41.75.Ht, 29.27.Hj, 61.50.Ah (all)
  37. D.F. Alferov, Yu.A. Bashmakov, P.A. Cherenkov “Radiation from relativistic electrons in a magnetic undulator32 200–227 (1989)
    41.60.−m, 29.20.Lq, 29.20.Dh, 41.75.Ht, 29.27.Hj (all)
  38. V.I. Arnol’d, L.M. Barkov et alBoris Valerianovich Chirikov (on his sixtieth birthday)31 682–683 (1988)
    01.60.+q, 29.40.Gx, 29.27.−a, 41.75.Fr (all)
  39. Yu.M. Ado, S.T. Belyaev et alAleksei Aleksandrovich Naumov (Obituary)29 898–899 (1986)
    01.60.+q, 29.20.Hm, 41.75.Fr, 29.17.+w, 29.20.Lq, 29.20.Fj (all)
  40. V.S. Panasyuk “New types of synchrotrons as dedicated generators of synchrotron and x-ray radiation.29 383–384 (1986)
    29.20.Lq, 29.20.Dh, 41.75.Fr, 29.27.Ac, 29.27.Bd, 41.50.+h (all)
  41. Yu.M. Ado “High-energy charged-particle accelerators28 54–69 (1985)
    29.20.Dh, 29.20.Lq, 41.75.Ak, 29.27.Bd, 29.17.+w, 41.75.Fr (all)
  42. V.N. Sintsov, A.F. Zapryagaev “Aperture synthesis in optics18 931–941 (1975)
    42.79.Ag, 42.79.Bh, 42.79.Dj, 42.30.Lr, 95.55.Fw (all)
  43. 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)
  44. E.M. Zolotov, V.A. Kiselev, V.A. Sychugov “Optical phenomena in thin-film waveguides17 64–84 (1974)
    77.55.+f, 42.82.−m, 42.79.Dj, 42.65.Ky, 42.65.Wi (all)
  45. I.D. Bagbaya “On the history of the diffraction grating15 660–661 (1973)
    42.79.Dj, 01.65.+g (all)
  46. V.N. Baier “Radiative polarization of electrons in storage rings14 695–714 (1972)
    29.20.Dh, 41.75.Fr, 29.27.Hj, 29.27.Bd (all)
  47. Yu.A. Plis, L.M. Soroko “The current state of the physics and technology of obtaining polarized particle beams15 318–339 (1972)
    34.70.+e, 41.75.Fr, 39.10.+j, 32.10.Dk, 29.17.+w, 29.20.Lq (all)
  48. G.V. Voskresenskii, V.N. Kurdyumov “Radiative Losses of Electron Rings in Inhomogeneous Structures13 669–669 (1971)
    29.20.Dh, 41.75.Fr, 41.75.Ht, 41.85.−p, 29.27.−a (all)
  49. 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)
  50. V.L. Ginzburg “Radiation and radiation friction force in uniformly accelerated motion of a Charge12 565–574 (1970)
  51. 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)
  52. B.M. Bolotovskii, G.V. Voskresenskii “Emission from charged particles in periodic structures11 143–162 (1968)
    41.60.−m, 41.75.Fr, 42.79.Dj (all)
  53. G.I. Budker “Accelerators with colliding particle beams9 534–542 (1967)
    29.20.Dh, 29.27.Bd, 41.75.Fr (all)
  54. V.S. Letokhov “The Kapitza–Dirac effect9 178–179 (1966)
    41.75.Fr, 41.85.Ct (all)
  55. F.G. Bass, V.M. Yakovenko “Theory of radiation from a charge passing through an electrically inhomogeneous medium8 420–444 (1965)
  56. V.M. Lopukhin, A.S. Roshal’ “Electron-beam transverse-wave parametric amplifiers8 117–139 (1965)
    41.75.Fr, 84.30.Le (all)
  57. A.P. Kirichenko “Methods of narrowing spectral lines for interference measurements of length5 998–1005 (1963)
    07.60.Ly, 42.25.Hz, 42.79.Ag, 42.79.Bh, 42.79.Dj (all)
  58. A.P. Grinberg “The microtron4 857–879 (1962)
    29.20.Hm, 29.27.Ac, 29.27.Fh, 41.85.Lc, 41.75.Fr (all)
  59. V.I. Veksler “The present state of the problem of acceleration of atomic particles1 54–61 (1958)
    29.17.+w, 41.75.Fr, 41.75.Ak, 29.20.Hm, 21.30.−x, 29.20.Lq (all)
  60. 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)
  61. V.V. Lider “Multilayer x-ray interference structures”, accepted
    07.85.−m, 41.50.+h, 42.79.Dj, 42.88.+h, 61.05.cp, 78.20.Bh, 78.67.Pt, 95.55.Ka (all)
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