[1] Nuckolls J H. The feasibility of inertial confinement fusion［J］. Phys Today, 1982, 35: 24-31.

[2] Li C K, Seguin F H, Frenje J A, et al. Impending hohlraum plasma stagnation in inertial-confinement fusion［J］. Phys Rev Lett, 2012, 108: 025001.

[3] Pichel P, Divol L, Williams E A, et al. Tuning the implosion symmetry of ICF targets via controlled crossed-beam energy transfer［J］. Phys Rev Lett, 2009, 102: 025004.

[4] Landen O L, Edwards J, Haan S W, et al. Capsule implosion optimization during the indirect-drive National Ignition Campaign［J］. Phys Plasms, 2011, 18: 051002.

[5] Cohen D H, Landen O L, MacFarlane J J. Numerical modeling of hohlraum radiation conditions: spatial and spectral variations due to sample position,beam pointing,and hohlraum geometry［J］. Phys Plasma, 2005, 12: 122703.

[6] Lindl J D, Amendt P, Berger R L, et al. The physics basis for ignition using indirect-drive targets on the National Ignition Facility［J］. Phys Plasms, 2004, 11(2): 339-491.

[7] Suter L J, Hauer A A, Powers L V, et al. Modeling and interpretation of Nova’s symmetry scaling data base［J］. Phys Rev Lett, 1994, 73(17): 2328-2331.

[8] Haan S W, Lindl J D, Callahan D A, et al. Point design targets, specifications, and requirements for the 2010 ignition campaign on the National Ignition Facility［J］. Phys Plasms, 2011, 18: 051001.

[9] 景龙飞,黄天晅,陈伯伦,等.神光-Ⅲ主机内爆柱腔靶长径比对靶丸辐照不均匀度的影响［J］.强激光与粒子束, 2011, 23(9): 2409-2414.(Jing Longfei, Huang Tianxuan, Chen Bolun, et al. Effects of length-to-diameter ratio of cylindrical hohlraum on irradiation nonuniformity of capsule on Shenguang-Ⅲ facility. High Power Laser and Particle Beams, 2011, 23(9): 2409-2414)

[10] Atzeni S, Mer-ter-Vehn J. The physics of inertial fusion, clarendon［M］. New York: Oxford Science Publications, 2004: 312-315.

[11] 黄天晅.黑腔X光辐射的模型分析及辐射温度的实验研究［D］.绵阳: 中国工程物理研究院, 2001: 46-72.(Huang Tianxuan. Analysis of X-ray irradiation in hohlraum and experiment research of irradiation temperature. Mianyang: China Academy of Engineering Physics, 2001: 46-72)

[12] 江少恩,郑志坚,成金秀,等.管靶X射线辐射输运初步研究Ⅰ简化模型数值模拟与分析［J］.物理学报, 2000, 49(8): 1507-1512.(Jiang Shaoen, Zheng Zhijian, Cheng Jinxiu, et al. Preliminary investigation on X-ray radiation transport in cylindrical targets Ⅰ simulations and analyses on the simple model. Acta Phys Sin, 2000, 49(8): 1507-1512)

[13] Sigel R, Pakula R, Sakabe S, et al. X-ray generation in a cavity heated by 1.3- or 0.44-μm laser light.Ⅲ.Comparison of the experiment results with theoretical predictions for X-ray confinement［J］. Phys Rev A, 1988, 38 (11): 5779-5785.

[14] Tsakiris G D. Energy redistribution in cavities by thermal radiation［J］. Phys Fluids B, 1992, 4(4): 992-1005.

[15] Srivastava M K, Vinod Kumar, Menon S V G. Analytical axial view factors and thermal radiation distribution inside a cylindrical hohlraum［J］. Phys Plasmas, 2000, 7(6): 2616-2621.

[16] 周近宇,黄天晅,蒙林,等.视角因子方法在间接驱动ICF中的应用［J］.强激光与粒子束, 2010, 22(5): 1053-1058.(Zhou Jinyu, Huang Tianxuan, Meng Lin, et al. Application of view-factor method on indirect inertial confinement fusion. High Power Laser and Particle Beams, 2010, 22(5): 1053-1058)

[17] Nakamura M, Kondo K, Nishimura H, et al. Numerical method for finding uniform irradiation conditions of a fusion capsule driven by X-ray radiation［J］. Laser and Particle Beams, 1992, 10(3): 421-433.

[18] Skupsky Stanley, Lee Kotic. Uniformity of enegy deposition for laser driven fusion［J］. J Appl Phys, 1983, 54(7): 3662-3671.

[19] 景龙飞.ICF辐射驱动对称性分析及三维可视化研究［D］.绵阳: 中国工程物理研究院, 2012: 13-16, 38-72.(Jing Longfei. Analysis of radiation drive symmetry in ICF and 3-D visibility research. Mianyang: China Academy of Engineering Physics, 2012: 13-16, 38-72)

[20] Kirkwood R K, Milovich J, Bradley D K, et al. Sensitivity of ignition scale backlit thin-shell implosions to hohlraum symmetry in the foot of the drive pulse［J］. Phys Plasmas, 2009, 16: 012702.

[21] Glenzer S H, MacGowan B J, Meezan N B, et al. Demonstration of ignition radiation temperatures in indirect-drive inertial confinement fusion hohlraums［J］. Phys Rev Lett, 2011, 106: 085004.

[22] Landen O L, Amendt P A, Suter L J, et al. A simple time-dependent analytic model of the P2 asymmetry in cylindrical hohlraums［J］. Phys Plasmas, 1999, 6(5): 2137-2143.

[23] Amendt P, Glendinning S G, Hammel B A, et al. New methods for diagnosing and controlling hohlraum drive asymmetry on Nova［J］. Phys Plasms, 1997, 4(5): 1862-1871.

[24] Glendinning S G, Amendt P, Cline B D, et al. Hohlraum symmetry measurements with surrogate solid targets［J］. Rev Sci Instrum, 1999, 70(1): 536-542.

[25] 江少恩,丁永坤,缪文勇,等.我国激光惯性约束聚变实验研究进展［J］.中国科学G辑, 2009, 39(11): 1571-1583.(Jiang Shaoen, Ding Yongkun, Miao Wenyong, et al. Recent progress of inertial confinement fusion experiments in China. Science in China Series G, 2009, 39(11): 1571-1583)