High Power Laser and Particle Beams, Volume. 32, Issue 11, 112008(2020)
Study on X-ray line emission diffraction in inertial confinement fusion and its recent progress
[2] Basov N G, Danilychev V A, Glotov E P. Theoretical investigation of promising methods of improving the energy characteristics of CW industrial electron-beam-controlled lasers[J]. Journal of Soviet Laser Research, 5, 647-666(1984).
[8] [8] Nielsen J A, McMrow D. Elements of modern Xray physics[M]. London: John Wiley & Sons, 2011: 207230.
[10] [10] Gambaccini M, Taibi A, Del Guerra A, et al. Smallfield imaging properties of narrow energy b Xray beams f mammography[C] IEEE Nuclear Science Symposium Medical Imaging Conference Recd. 1995, 3: 13881391.
[11] [11] Sanchez del Rio M, Ferrero C, Mocella V. Computer simulation of bent perfect crystal diffraction profiles[C]Proc of SPIE. 1997, 3151: 312323.
[13] Freund A K. Mosaic crystals monochromators for synchrotron radiation instrumentation[J]. Nucl Instr and Met, A266, 461-466(1988).
[16] Johansson T. A novel precise focusing X-ray Spectrometer[J]. Journal of Physics, 82, 507-528(1993).
[18] Hall T A. A focusing X-ray crystal spectrograph[J]. Journal of Physics E Scientific Instruments, 17, 110(2000).
[21] [21] Del Río M S, Dejus R J. XOP v2. 4: Recent developments of the Xray optics software toolkit[C]Proc of SPIE. 2011: 814115.
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Ao Sun, Wanli Shang, Guohong Yang, Minxi Wei, Miao Li, Xingsen Che, Lifei Hou, Huabing Du, Yimeng Yang, Wenhai Zhang, Dong Yang, Feng Wang, Haien He, Jiamin Yang, Shaoen Jiang, Baohan Zhang, Yongkun Ding. Study on X-ray line emission diffraction in inertial confinement fusion and its recent progress[J]. High Power Laser and Particle Beams, 2020, 32(11): 112008
Category: Inertial Confinement Fusion Physics and Technology
Received: May. 17, 2020
Accepted: --
Published Online: Jan. 4, 2021
The Author Email: Wei Minxi (wmx17@sina.com), Li Miao (limiao@cqupt.edu.cn)