[1] Hurricane O A, Callahan D A , Casey D T, et al. Fuel gain exceeding unity in an inertially confined fusion implosion[J]. Nature, 2014, 506: 343-348.
[2] Park H -S, Hurricane O A, Callahan D A, et al. High-adiabat high-foot inertial confinement fusion implosion experiments on the national ignition facility[J]. Phys Rev Lett, 2014, 112(5): 055001-1-055001-5.
[3] Town R P J, Bradley D K, Kritcher A, et al. Dynamic symmetry of indirectly driven inertial confinement fusion capsules on the National Ignition Facility[J]. Phys Plasmas, 2014, 21(5): 056313-1-056313-9.
[4] Michel D T, Craxton R S, Davis A K, et al. Implosion dynamics in direct-drive experiments[J]. Plasma Phys Control Fusion, 2015, 57(1): 014023.
[5] Hurricane O A, Callahan D A, Casey D T, et al. The high-foot implosion campaign on the national ignition facility[J]. Phys Plasmas, 2014, 21(5): 056314-1-056313-14.
[6] Shengzhen Yi, Baozhong Mu, Xin Wang, et al. A four-channel multilayer KB microscope for high-resolution 8-keV X-ray imaging in laser-plasma diagnostics[J]. Chinese Optics Letters, 2014, 12(1): 013401-1-013401-4.
[7] Cai Houzhi, Liu Jinyuan, Peng Xiang, et al. Design of an X-Ray framing camera with wide microstrip line[J]. Chinese Journal of Lasers, 2012, 39(1): 0117001-1-0117001-7. (in Chinese)
[8] Bell P M, Killkenny J D, Hanks R, et al. Measurements with a 35 psec gate time microchannel plate camera[C]//SPIE, 1990, 1346: 456-464.
[9] Nagel S R, Hilsabeck T J, Bell P M, et al. Dilation X-ray imager a new/faster gated X-ray imager for the NIF[J]. Rev Sci Instrum, 2012, 83(10): 10E116-1-10E116-3.
[10] Cai Houzhi, Liu Jinyuan, Niu Lihong, et al. Monte Carlo simulation for microchannel plate framing camera[J]. Optical Engineering, 2010, 49(8): 080502-1-080502-3.
[11] Liu Jinyuan, Niu Lihong, Peng Wenda, et al. Application of a fast electrical pulse in gated multichannel plate camera[J]. Rev Sci Instrum, 2007, 78(5): 055104-1-055104-4.