М. В. Федоров, “Взаимодействие электронов с электромагнитным полем в лазерах на свободных электронах”, УФН, 135:2 (1981), 213–236; Phys. Usp., 24:10 (1981), 801

Эта публикация цитируется в следующих 22 статьяx:

Vladimir G. Baryshevsky, “Klystron type crystal-based x-ray volume free electron laser”, Phys. Rev. Accel. Beams, 27:12 (2024)
В. М. Аникин, В. И. Цой, “Исследования по физике лазеров на свободных электронах в Саратовском университете”, Изв. Сарат. ун-та. Нов. cер. Сер. Физика, 18:2 (2018), 144–148
V. V. Porkhaev, “Conditions for the Onset of Superradiance Regime in a Relativistic Electron Bunch”, Tech. Phys., 50:11 (2005), 1470
I. N. Kartashov, M. V. Kuzelev, N. Sepehri Javan, “Unsteady processes during stimulated emission from a relativistic electron beam in a quasi-longitudinal electrostatic pump field”, Plasma Phys. Rep., 31:3 (2005), 244
К. Н. Мухин, A. Ф. Суставов, В. Н. Тихонов, “К 100-летию Нобелевских премий (о работах российских лауреатов Нобелевской премии по физике)”, УФН, 173:5 (2003), 511–569 ; Phys. Usp., 46:5 (2003), 493–547
Ю. А. Победин, “Излучение при движении зарядов над дифракционной решеткой”, Письма в ЖЭТФ, 75:12 (2002), 750–755 ; Yu. A. Pobedin, “Radiation of a charge moving over the diffraction grating”, JETP Letters, 75:12 (2002), 625–630
N. D. Devyatkov, E. D. Naumenko, E. M. Smirnov, A. A. Rukhadze, V. N. Sretenskii, “Characteristics of the mechanism of coherent optical emission in relativistic undulator devices”, Tech. Phys., 42:11 (1997), 1360
Vilik M. Harutunian, Sergei G. Oganesyan, “Laser radiation-free electron interaction”, Physics Reports, 270:4-6 (1996), 217
В. И. Курилко, Ю. В. Ткач, “Физические механизмы формирования когерентного излучения в ультрарелятивистском ЛСЭ”, УФН, 165:3 (1995), 241–261 ; V. I. Kurilko, Yu. V. Tkach, “Physical mechanisms of generation of coherent radiation in an ultrarelativistic free-electron laser”, Phys. Usp., 38:3 (1995), 231–251
A.V. Serov, “Experimental investigation of the operation of a parametric free-electron laser employing a bending magnet instead of an undulator”, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 308:1-2 (1991), 144
E. M. Belenov, S. V. Grigor'ev, A. V. Nazarkin, I. V. Smetanin, “Coherent interaction of electromagnetic pulses with two-level systems in the frequency range from superhigh frequencies (HTSC) to X-ray (FEL)”, J Russ Laser Res, 11:5 (1990), 498
V.K. Tripathi, C.S. Liu, “A slow wave free-electron laser”, IEEE Trans. Plasma Sci., 17:4 (1989), 583
W. Becker, J.K. McIver, “Off-axis gain enhancement in a free-electron laser in the long undulator regime”, Optics Communications, 60:4 (1986), 232
B. V. Kholomai, “Stimulated emission by relativistic electrons in magnetic undulators”, Soviet Physics Journal, 28:12 (1985), 988
Yu. G. Pavlenko, Felipe R. Gonzales, “Free-electron radiation in an undulator”, Soviet Physics Journal, 28:9 (1985), 753
W. B. Colson, G. Dattoli, F. Ciocci, “Angular-gain spectrum of free-electron lasers”, Phys. Rev. A, 31:2 (1985), 828
V.G. Baryshevsky, I.D. Feranchuk, “Parametric beam instability of relativistic charged particles in a crystal”, Physics Letters A, 102:3 (1984), 141
M. Bertolotti, C. Sibilia, “Coherent effects in inverse compton scattering in the high frequency region”, Appl. Phys. B, 34:4 (1984), 221
C. Leubner, P. Torggler, “Spontaneous emission from magnetic and optical helical wigglers in the strong field regime”, Optics Communications, 48:5 (1984), 362
M.V. Fedorov, “The Nonlinear Gain in the Free-electron Laser with a Long Wiggler”, Optica Acta: International Journal of Optics, 30:5 (1983), 669