[1] H. P. Gu, Q. H. Lou, N. H. Cheng et al.. Exprimental study of enhanced emission of the laser-ablated plume in backing Gas. Appl. Phys. (B), 1994, 58(2): 143~148
[2] W. K. A. Kumuduni, Y. Nakata, T. Okada et al.. Spatial distribution of YO molecules ejected from laser-ablated YBa2Cu2O7-x. Appl. Phys. (B), 1994, 58(4): 289~294
[3] V. V. Golovyov, R. O. Eseualiev, V. S. Letohov. Ablation of an optically homogeneous absorbing medium by scattered pulsed laser radiation. Apll. Phys. (B), 1993, 57(5): 451~457
[4] Paul J. Wolf. The plasma properties of laser-ablated SiO2. J. Appl. Phys., 1992, 72(4): 1280~1289
[5] Yueyuan Xia, Liangmo Mei, Chunyu Tan et al.. Laser ablation of copper and aluminium in air. Appl. Phys. (A), 1991, 52(6): 425~432
[6] R. G. Tomlinson, E. K. Damon, H. T. Busher. The breakdown of noble and atmospheric gases by ruby and neodymium laser pulses. Physics of Quantum Electronics, edited by P. L. Kellyetal, New York, McGraw-Hill, 1966
[7] A. N. Pirri. Theory for momentum transfer to a surface with a high-power laser. Phys. Fluids, 1973, 16(9): 1435~1440
[8] A. N. Pirri, R. G. Root, P. K. S. Wu. Plasma energy transfer to metal surfaces irradiated by pulsed lasers. AIAA Journal, 1978, 16: 1296~1304
[9] T. P. Hughes. Plasma and Laser Light, Published by Adam Hilger, 1975, 166