超热电子能量分布的实验和模拟研究
蔡达锋, 王剑, 谷渝秋, 郑志坚, 周维民, 焦春晔, 温天舒, 淳于书泰. 超热电子能量分布的实验和模拟研究[J]. 强激光与粒子束, 2011, 23(7): 1945.
Cai Dafeng, Wang Jian, Gu Yuqiu, Zheng Zhijian, Zhou Weimin, Jiao Chunye, Wen Tianshu, Chunyu Shutai. Experimental and simulative study on energy distribution of hot electrons[J]. High Power Laser and Particle Beams, 2011, 23(7): 1945.
[1] Wilks S C, Kruer W L, Tabak M, et al. Absorption of ultra-intense laser pulses[J].Phys Rev Lett,1992,69(9):1383-1386.
[2] Malka G, Miquel J L. Experimental confirmation of ponderomotive-force electrons produced by an ultrarelativistic laser pulse on a solid target[J].Phys Rev Lett,1996,77(1):75-78.
[3] Beg F N, Bell A R, Dangor A E, et al. A study of picosecond laser-solid interactions up to 1019 W·cm-2 [J].Phys Plasmas,1997,4(2):447-457.
[4] Malka G, Fuchs J, Amiranoff F, et al. Suprathermal electron generation and channel formation by an ultrarelativistic laser pulse in an underdense preformed plasma[J].Phys Rev Lett,1997,79(11):2053-2056.
[5] Malka G, Lefebvre E, Miquel J L. Experimental observation of electrons accelerated in vacuum to relativistic energies by a high-intensity laser[J].Phys Rev Lett,1997,78(17):3314-3317.
[6] Schlegel T, Bastiani S, Gremillet L, et al. Comparison of measured and calculated X-ray and hot-electron production in short-pulse laser-solid interactions at moderate intensities[J].Phys Rev E,1999,60(2):2209-2217.
[7] Zhidkov A, Sasaki A, Utsumi T, et al. Prepulse effects on the interaction of intense femtosecond laser pulses with high-Z solids[J].Phys Rev E,2000,62(5):7232-7240.
[8] Zhidkov A G, Sasaki A, Fukumoto I, et al. Pulse duration effect on the distribution of energetic particles produced by intense femtosecond laser pulses irradiating solids[J].Phys Plasmas,2001,8(8):3718-3723.
[9] Chen L M, Zhang J, Dong Q L, et al. Hot electron generation via vacuum heating process in femtosecond laser-solid interactions[J].Phys Plasmas,2001,8(6):2925-2910.
[10] Dong Q L, Zhang J. Electron acceleration by static and oscillating electric fields produced in the interaction between femtosecond laser pulses and solid targets[J].Phys Plasmas,2001,8(3):1025-1028.
[11] Chen L M, Zhang J, Teng H, et al. Experimental study of a subpicosecond pulse laser interacting with metallic and dielectric targets[J].Phys Rev E,2001,63:036403.
[12] Bastiani S, Audebert P, Geindre J P, et al. Hot-electron distribution functions in a subpicosecond laser interaction with solid targets of varying initial gradient scale lengths[J]. Phys Rev E, 1999,60(3):3439-3442.
[13] Forslund D W, Kindel J M, Kenneth L, et al. Theory and simulation of resonant absorption in a hot plasma[J].Phys Rev A,1975,11(2):679-683.
[14] Brunel F. Not-so-resonant, resonant absorption[J].Phys Rev Lett,1987,59(1):52-55.
[15] Brunel F. Anomalous absorption of high intensity subpicoscond laser pulses[J]. Phys Fluids,1988,31(9):2714-2719.
[16] Liu Shibing, Zhang Jie, Wei Yu. Acceleration and double-peak spectrum of hot electrons in relativistic laser plasmas[J].Phys Rev E,1999,60(3):3279-3282.
[17] Sprangle P, Esarey E, Ting A, et al. Laser wakefield acceleration and relativistic optical guiding[J].Appl Phys Lett,1988,53(22):2146-2148.
[18] Amiranoff F, Baton S, Bernard D, et al. Observation of laser wakefield acceleration of electrons[J].Phys Rev Lett,1998,81(5):995-998.
[19] Schnürer M, Nolte R, Rousse A, et al. Dosimetric measurements of electron and photon yields from solid targets irradiated with 30 fs pulses from a 14 TW laser[J].Phys Rev E,2000,61:4394-4401.
[21] Bilski P, Budzanowski M, Olko P, et al. Properties of different thin-layer LiF: Mg, Cu, P TL detectors for beta dosimetry[J].Radiat Prot Dosim,1996,66(1/4):101-104.
[22] 张兴宝. 1~50 MeV电子束辐射剂量学[M]. 北京:原子能出版社,1994:8-11.(Zhang Xingbao. 1~50 MeV electron beam radiation dosimetry. Beijing: Atomic Energy Press, 1994:8-11)
[23] 谷渝秋,蔡达锋,郑志坚,等.飞秒激光-固体靶相互作用中超热电子能量分布的实验研究[J]. 物理学报,2005,54(1):186-191.(Gu Yuqiu, Cai Dafeng, Zheng Zhijian, et al. Experimental study on energy distribution of the hot electrons generated by femtosecond laser interacting with solid targets.Acta Physica Sinica,2005,54(1):186-191)
[24] Grimes M K, Rundquist A R, Lee Y S, et al. Experimental identification of “vacuum heating” at femtosecond-laser-irradiated metal surfaces[J].Phys Rev Lett,1999,82(20):4010-4013.
[25] Estabrook K G, Valeo E J, Kruer W L. Two-dimensional relativistic simulations of resonance absorption[J].Phys Fluids,1975,18(9):1151-1159.
[26] 蔡达锋,谷渝秋,郑志坚,等.快电子前向发射的实验与模拟[J]. 中国科学:G辑,2008,38(9):1214-1220.(Cai Dafeng, Gu Yuqiu, Zheng Zhijian, et al. Experimental and simulative study for the forward emission of fast electrons.Science in China:Series G,2008,38(9):1214-1220)
蔡达锋, 王剑, 谷渝秋, 郑志坚, 周维民, 焦春晔, 温天舒, 淳于书泰. 超热电子能量分布的实验和模拟研究[J]. 强激光与粒子束, 2011, 23(7): 1945. Cai Dafeng, Wang Jian, Gu Yuqiu, Zheng Zhijian, Zhou Weimin, Jiao Chunye, Wen Tianshu, Chunyu Shutai. Experimental and simulative study on energy distribution of hot electrons[J]. High Power Laser and Particle Beams, 2011, 23(7): 1945.