黑腔中空间束匀滑光束成丝不稳定性的数值模拟
李斌, 胡晓燕, 郑春阳, 刘占军. 黑腔中空间束匀滑光束成丝不稳定性的数值模拟[J]. 强激光与粒子束, 2016, 28(11): 112004.
Li Bin, Hu Xiaoyan, Zheng Chunyang, Liu Zhanjun. Numerical simulation of filamentation for spatially smoothing beam in hohlraum[J]. High Power Laser and Particle Beams, 2016, 28(11): 112004.
[1] Lindl J. Development of indirect-drive approach to inertial confinement fusion and the target physics basis for ignition and gain[J]. Phys Plasmas, 1995, 2(11): 3933-4024.
[2] Lindl J, Amendt P, Berger R L, et al. The physics for ignition using indirect-drive targets on the National Ignition Facility[J]. Phys Plasmas, 2004, 11(2): 339-491.
[3] 张家泰. 激光等离子体相互作用物理与模拟[M]. 郑州: 河南科学技术出版社, 1998. (Zhang Jiatai. Physics and simulation of laser plasma interactions. Zhengzhou: Henan Science and Technology Press, 1998)
[4] Hinkel D E, Williams E A, Still C H. Laser beam deflection induced by transverse plasma flow[J]. Phys Rev Lett, 1996, 7(7): 1298- 1031.
[6] Hu Xiaoyan, Hao Liang, Liu Zhanjun, et al. The development of laser-plasma interaction program LAP3D on thousands of processors[J]. AIP Advances, 2015, 5: 087174.
[7] Glenzer S H, Froula D H, Divol L, et al. Experiments and multiscale simulations of laser propagation through ignition-scale plasmas[J]. Nature Physics, 2007, 3(10): 716-719.
[8] Kirkwood R K, Moody J D, Kline J, et al. A review of laser-plasma interaction physics of indirect-drive fusion[J]. Plasma Physics and Controlled Fusion, 2013, 55: 103001.
[9] Lindl J, Landen O, Edwards J, et al. Review of the National Ignition Campaign 2009-2012[J]. Phys Plasmas, 2014, 21(2): 122-143.
[10] Paul D R. High-energy-density physics: fundamentals, inertial fusion, and experimental astrophysics[M]. Berlin: Springer, 2006.
[12] 王峰, 彭晓世, 杨冬, 等. 基于神光Ⅲ原型的背向散射实验技术研究[J]. 物理学报, 2013, 62: 175202. (Wang Feng, Peng Xiaoshi, Yang Dong, et al. Backscattered light diagnostic technique on Shen Guang-Ⅲ prototype Laser Facility. Acta Physica Sinica, 2013, 62: 175202)
[13] 陈军, 莫则尧, 郑春阳, 等. 激光自聚焦和成丝模拟中的并行计算方法[J]. 计算物理, 2008, 25(2): 127-132. (Chen Jun, Mo Zeyao, Zheng Chunyang, et al. Parallel numerical simulation of laser beam self-focusing and filamentation. Chinese Journal of Computational Physics, 2008, 25(2): 127-132)
[14] 胡晓燕, 曹小林, 郭红, 等. 傅立叶变换与流体数值计算的耦合并行算法[J]. 计算物理, 2012, 29(2): 484-488. (Hu Xiaoyan, Cao Xiaolin, Guo Hong, et al. Parallel algorithm of coupled Fourier transform and fluid numerical computation. Chinese Journal of Computational Physics, 2012, 29(2): 484-488)
[15] 李平, 马驰, 粟敬钦, 等. 基于焦斑空间频谱控制的连续相位板设计[J]. 强激光与粒子束, 2008, 20(7): 1114-1118. (Li Ping, Ma Chi, Su Jingqin, et al. Design of continuous phase plates for controlling spatial spectrum of focal spot. High Power Laser and Particle Beams, 2008, 20(7): 1114-1118)
[16] Still H, Berger C L, Langdon R B, et al. Filamentation and forward Brillouin scatter of entire smoothed and aberrated laser beams[J]. Phys Plasmas, 2000, 7(5): 2023-2032.
[17] Wilks S, Young P E, Hammer J, et al. Spreading of intense laser beams due to filamentation[J]. Phys Rev Lett, 1994, 73(22): 2994-2997.
[18] Schmitt A J. Three-dimensional filamentation of light in laser plasmas[J]. Phys Fluids, 1990, 3(1): 186-194.
李斌, 胡晓燕, 郑春阳, 刘占军. 黑腔中空间束匀滑光束成丝不稳定性的数值模拟[J]. 强激光与粒子束, 2016, 28(11): 112004. Li Bin, Hu Xiaoyan, Zheng Chunyang, Liu Zhanjun. Numerical simulation of filamentation for spatially smoothing beam in hohlraum[J]. High Power Laser and Particle Beams, 2016, 28(11): 112004.