Free-electron dynamics and gain in a free-electron laser based on the laser-pumped wiggler
Hedayati, R.; Jafari, S.; Batebi, S.
Optik - International Journal for Light and Electron Optics
2015
DOI: 10.1016/j.ijleo.2015.09.227
Accession: 066971462
PDF emailed within 0-6 h: $19.90
Related References
Hasanbeigi, A.; Mehdian, H.; Jafari, S. 2010: Effect of the Electron-Beam Self-Fields on Gain in an Optical Wiggler Pumped Free-Electron Laser Contributions to Plasma Physics 50(2): 156-164Abbasi, E.; Jafari, S.; Hedayati, R. 2016: Interaction of a relativistic dense electron beam with a laser wiggler in a vacuum: self-field effects on the electron orbits and free-electron laser gain Journal of Synchrotron Radiation 23(Part 6): 1282-1295
Mehdian, H.; Raghavi, A. 2006: Kinetic description of a wiggler pumped ion-channel free electron laser Plasma Physics and Controlled Fusion 48(7): 991-1003
Fruchtman 1988: Comparative study of the gyrotron, the free-electron laser, and the wiggler-free free-electron laser Physical Review. A General Physics 37(11): 4252-4258
Fedorov, M. 1983: The Nonlinear Gain in the Free-electron Laser with a Long Wiggler Optica Acta: International Journal of Optics 30(5): 669-672
Yu; Krinsky; Gluckstern; van Zeijts JB 1992: Effect of wiggler errors on free-electron-laser gain Physical Review. A Atomic Molecular and Optical Physics 45(2): 1163-1176
Esmaeilzadeh, M.; Mehdian, H.; Willett, J.E. 2002: Gain in a free-electron laser with planar wiggler and ion-channel guiding Physics of Plasmas 9(2): 670-677
Caponi, M.Z.; Shih, C. 1982: Gain and efficiency enhancement by a multicomponent wiggler free-electron laser Physical Review A 26(4): 2285-2288
Varfolomeev, A.A. 1983: Augmentation du gain d'un laser à électron libre au moyen d'un rayonnement laser issu d'une source externe - Enhancement of free electron laser gain by means of laser radiation from an external source Zetf. Pis′ma V Redakciu 85(1): 41-49
Gou, S. 1995: The controlling parameter of a wiggler‐pumped free‐electron laser with an axial‐guide magnetic field Physics of Plasmas 2(2): 533-536
Marable, W.; Tang, C.; Sprangle, P. 1987: Tapered wiggler analysis of high gain free electron laser oscillators Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 259(1-2): 210-218
Esmaeilzadeh, M.; Mehdian, H.; Willett, J.E. 2002: Gain equation for a free-electron laser with a helical wiggler and ion-channel guiding Physical Review. E Statistical Nonlinear and Soft Matter Physics 65(1 Part 2): 016501
Hasanbeigi, A.; Abasirostami, S.; Mehdian, H. 2013: Kinetic description of a wiggler-pumped ion-channel free-electron laser by applying the Einstein coefficient technique Journal of Plasma Physics 79(5): 853-857
Kim, S.H. 2012: Free-electron two-quantum stark radiation driven by the electric wiggler associated with density modulation in a hydrodynamic free-electron laser Journal of the Korean Physical Society 60(5): 674-679
Nam, S.; Kim, K. 2012: Nonlinear interaction between radiation and an electron beam in a free-electron laser oscillator based on a two-frequency wiggler Journal of the Korean Physical Society 61(1): 45-48
Kim, S.H. 2009: Free-Electron Two-Quantum Stark Radiation in a Pre-Bunched Magnetic-Wiggler Free-Electron Laser Journal of the Korean Physical Society 54(6): 2235-2246
Couhan, S.; Mishra, G. 2003: Effect of induced betatron motion on longitudinal wiggler free-electron laser gain Laser and Particle Beams 21(1): 53-58
Ravi Kumar, A.V.; Mohandas, K.K.; Sathyanarayana, K.; Jain, K.K. 1999: Peak-detector-hold based circuit for trigger synchronization of the electron beam and wiggler in a free-electron laser experiment Review of Scientific Instruments 70(2): 1359-1361
Freund; Kehs; Granatstein 1986: Linear gain of a free-electron laser with an electromagnetic wiggler and an axial-guide magnetic field Physical Review. A General Physics 34(3): 2007-2012
Iracane, D.; Touati, D.; Chaix, P. 1994: Effect of the wiggler harmonics on the free electron laser dynamics Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 341(1-3): 220-224