[1] Bonnal C, Ruault J M, Desjean M C. Active debris removal: recent progress and current trends[J]. Acta Astronautica, 85, 51-60(2013).
[2] Hou Chongyuan, Yang Yuan, Yang Yikang, et al. Electromagnetic-launch-based method for cost-efficient space debris removal[J]. Open Astronomy, 29, 94-106(2020).
[3] Fang Yingwu, Pan Jun, Luo Yijia, et al. Effects of deorbit evolution on space-based pulse laser irradiating centimeter-scale space debris in LEO[J]. Acta Astronautica, 165, 184-190(2019).
[4] Phipps C. Lisk-Broom: a laser concept for clearing space debris[J]. Laser and Particle Beams, 13, 33-41(1995).
[5] Romero-Calvo Á, Cano-Gómez G, Schaub H. Simulation and uncertainty quantification of electron beams in active spacecraft charging scenarios[J]. Journal of Spacecraft and Rockets, 59, 739-750(2022).
[6] Dai Hongyi, Wang Tongquan, Xiao Yabin. Research of effect of self-generated space charge force of charged particle beams on its radical spread[J]. Journal of National University of Defense Technology, 22, 41-44(2000).
[7] Zhang Shufa. The calculation of diffusive region of charged partical beam in transmiting[J]. Journal of National University of Defense Technology, 4, 43-54(1982).
[8] Dai Hongyi, Xiao Yabin, Wang Tongquan, . Study of spread of propagation of charged particle beams in vacuum[J]. Journal of Hunan University (Natural Science Edition), 28, 6-10(2001).
[9] Hu Xing. Research on propagation of high energy ged particle beams in media materials[D]. Changsha: National University of Defense Technology, 2004
[10] Hao Jianhong, Wang Xi, Zhang Fang, et al. The influence of magnetic field on the beam quality of relativistic electron beam long-range propagation in near-Earth environment[J]. Plasma Science and Technology, 23, 115301(2021).
[11] Jiao Luhuai, Ge Yasong, Zhang Yuannong, . Transverse confinement and periodic oscillations of electron beam structures traveling in the Earth's magnetic field[J]. Chinese Journal of Geophysics, 65, 3691-3703(2022).
[12] Xue Bixi, Hao Jianhong, Zhao Qiang, et al. Influence of geomagnetic field on the long-range propagation of relativistic electron beam in the atmosphere[J]. IEEE Transactions on Plasma Science, 48, 3871-3876(2020).
[13] Miller R B. An introduction to the physics of intense ged particle beam[M]. New Yk: Springer, 1982: 1359.
[14] Khazanov G V, Liemohn M W, Krivorutsky E N, et al. Relativistic electron beam propagation in the Earth’s magnetosphere[J]. Journal of Geophysical Research: Space Physics, 104, 28587-28599(1999).
[15] Neubert T, Gilchrist B, Wilderman S, et al. Relativistic electron beam propagation in the Earth’s atmosphere: modeling results[J]. Geophysical Research Letters, 23, 1009-1012(1996).
[16] Zhang Shichang, Elgin J. Stabilizing effect of the electronbeam selffields on the phasespace trajecty in a selfamplified spontaneous emission freeelectron laser operating in ultraviolet Xray spectral ranges[J]. Journal of Physics B: Atomic, Molecular Optical Physics, 2004, 37(4): 875883.
[17] White A E, Lewis H G. An adaptive strategy for active debris removal[J]. Advances in Space Research, 53, 1195-1206(2014).