[1] Cook R, Overturf ⅢG E, Buckley S R, et al. Production and characterization of doped materials for inertial confinement fusion experiment[J];. Journal of Vacuum Science & Technology, 1994, 12(4):1275-1280.

[2] Bieg K W. Summary Abstract: metal loaded poly-p-xylylene[J];. Journal of Vacuum Science & Technology, 1981, 18(3):1231-1231.

[3] Kool L B, Nolen R L, Sherwood K W. Polymer shells by the droplet method[J];. Journal of Vacuum Science & Technology, 1981, 18(3):1233-1237.

[4] 魏芸, 李波, 林波,等. 干凝胶炉法制备聚苯乙烯空心微球[J];. 强激光与粒子束, 2000, 12(6):711-714.(Wei Y,Li B, Lin B, et al. Fabrication of polystyrene microshells by dried-gel droplet method. High Power Laser and Particle Beams, 2000, 12(6):711-714)

[5] 张林, 涂海燕, 周兰,等. 乳液法制备惯性约束聚变靶用聚苯乙烯空心微球[J];. 原子能科学技术, 1996, 30(1):2-7.(Zhang L, Tu H Y, Zhou L, et al. Fabrication of polystyrene hollow microballoons for inertial confinement fusion targets. Atomic Energy Science and Technology, 1996, 30(1):2-7)

[6] 张林, 游丹, 高党忠,等. ICF氘代固体靶的研制[J];. 强激光与粒子束, 1999, 11(5):605-608.(Zhang L, You D, Gao D Z, et al. Fabrication of deuterated solid ICF target. High Power Laser and Particle Beams, 1999, 11(5):605-608)

[7] 冯长根, 蔡佩君, 张林, 等. 氧化铝表面有机改性及其在聚苯乙烯中分散性能的研究[J];. 北京理工大学学报, 2003.(Feng C G, Cai P J, Zhang L, et al. Study on surface organic modification of aluminum oxide and its dispersion property in polystyrene. Journal of Beijing Institute of Technology, 2003)

[8] Takagi M, Norimatsu T, Yamanaka T, et al. Development of deuterated polystyrene shells for laser fusion by means of a density-matched emulsion method[J];. Journal of Vacuum Science & Technology, 1991, 9(4):2145-2148.

[9] Zhou B, Wang J, Shen J, et al. Surface perturbation target for the Reyleigh-Tayleigh instability in inertial-confinement fusion experiments[J];. Journal of Vacuum Science & Technology, 1999, 17(6):3516-3520.