激光驻波中运动电子的谐波自发辐射
[1] Sarachik E S, Schappert G T. Classical theory of the scattering of intense laser radiation by free electrons[J].Phys Rev D,1970,1(10):2738-2753.
[2] Salamin Y I, Faisal F H M. Harmonic generation by superintense light scattering from relativistic electrons[J].Phys Rev A ,1996,54(5):4383-4395.
[3] Shen Baifei, Yu Wei, Zeng Guohai, et al. High order harmonic generation due to nonlinear Thomson scattering[J].Opt Commun,1995,136(3/4):239-242.
[4] Yu Wei, Yu M Y, Ma J X, et al. Strong frequency up-conversion by nonlinear Thomson scattering from relativistic electrons[J].Phys Plasmas,1998,5(2):406-409.
[5] Gao Ju. Thomson scattering from ultrashort and ultraintense laser pulses[J].Phys Rev Lett,2004,93:243001.
[6] Krafft G A. Spectral distributions of Thomson-scattered photons from high-intensity pulsed lasers[J].Phys Rev Lett,2004,92:204802.
[7] Phuoc K T, Burgy F, Rousseau J P, et al. Nonlinear Thomson scattering from relativistic laser plasma interaction[J].Eur Phys J D,2005,33(2):301-306.
[8] Lau Y Y, He Fei, Umstadter D P, et al. Nonlinear Thomson scattering: a tutorial[J].Phys Plasmas,2003,10(5): 2155-2162.
[9] He Fei, Lau Y Y, Umstadter D P, et al.Backscattering of an intense laser beam by an electron[J].Phys Rev Lett,2003,90:055002.
[10] Bucksbaum P H, Schumacher D W, Bashkansky M. High-intensity Kapitza-Dirac effect[J].Phys Rev Lett,1988,61(10):1182-1185.
[11] Li Xiaofeng, Zhang Jingtao, Xu Zhizhan, et al. Theory of the kapitza-dirac diffraction effect[J].Phys Rev Lett,2004,92:233603.
[12] Pokrovsky A L, Kaplan A E. Relativistic reversal of the ponderomotive force in a standing laser wave[J].Phys Rev A,2005,72:043401.
[13] Pokrovsky A L, Kaplan A E. Fully relativistic theory of the ponderomotive force in an ultraintense standing wave[J].Phys Rev lett,2005,95:053601.
[14] Kaplan A E, Pokrovsky A L. Laser gate: multi-MeV electron acceleration and zeptosecond e-bunching[J].Opt Express,2009,17(8):6194-6202.
[15] Macdonald M P, Spalding G C, Dholakia K. Microfluidic sorting in an optical lattice[J].Nature,2003,426:421-424.
[16] Ladavac K, Kasza K, Grier D G. Sorting mesoscopic objects with periodic potential landscapes: optical fractionation[J].Phys Rev E,2004,70: 010901.
[17] Paterson L, Papagiakoumou E, Milne G, et al. Light-induced cell separation in a tailored optical landscape[J].Appl Phys Lett,2005,87:123901.
[18] Sun Y Y, Yuan X C, Ong L S, et al. Large-scale optical traps on a chip for optical sorting[J].Appl Phy Lett,2007,90:031107.
[19] Gibbon P. High-order harmonic generation in plasmas: Optics of relativistic electrons[J].IEEE J Quantum Electron,1997,33(11):1915-1917.
[20] Jackson J D. Classical electrodynamics[M].New York: Wiley, 1975:241-245.
[21] Brau C A. Oscillations in the spectrum of nonlinear Thomson-backscattered radiation[J].Phys Rev ST Accel Beams,2004,7: 020701.
周素云, 袁孝. 激光驻波中运动电子的谐波自发辐射[J]. 强激光与粒子束, 2010, 22(12): 3007. Zhou Suyun, Yuan Xiao. Harmonics spontaneous emission due to electron motion in laser standing wave[J]. High Power Laser and Particle Beams, 2010, 22(12): 3007.