熔石英表面划痕附近电磁场分布模拟分析
[1] Camp D W, Kozlowski M, Sheehan L, et al. Subsurface damage and polishing compound affect the 355 nm laser damage threshold or fused silica surfaces[R]. USA: LLNL, 1997.
[2] Yoshiyama J, Genin F Y, Salleo A,et al. A study of the effects of polishing, etching, cleaving, and water leaching on the UV laser damage of fused silica[R]. USA: LLNL, 1997.
[3] Feit M D, Rubenchik A M. Laser intensity modulation by nonabsorbing defects[R]. USA: LLNL, 1996.
[4] Wong P B, Tyler G L, Baron J E, et al. A three-wave FDTD approach to surface scattering with application to remote sensing of geophysical surfaces[J]. IEEE Trans Antennas and Propagation, 1996, 44(4): 504-514.
[5] Yee K S. Numerical solution of initial boundary value problems involving Maxwell equations in isotropic media[J]. IEEE Trans Antennas Propagation, 1966, 14(3): 302-307.
[6] Taflove A. Computational electrodynamics: the finite difference time domain method (second edition)[M]. Norwood, MA: Artech House,2000.
王毅, 许乔, 柴立群, 陈宁, 朱湘琴. 熔石英表面划痕附近电磁场分布模拟分析[J]. 强激光与粒子束, 2005, 17(1): 67. WANG Yi, XU Qiao, CHAI Li-qun, CHEN Ning, ZHU Xiang-qin. Simulation and analysis of electromagnetic field distributing around fused silica scratch[J]. High Power Laser and Particle Beams, 2005, 17(1): 67.