[1] Pronkio P, Dutta S, Squier J, et al. Machining of sub-micron holes using a femtosecond laser at 800 nm. Opt Commun,1995,114:106 ~ 110
[5] Davis K M, Miura K, Sugimoto N, et al. Writing waveguides in glass with a femtosecond laser. Opt Lett, 1996,21 (21):1729 ~ 1731
[6] Hpmpelle D, Wielandy S, Alexander L. Gaeta, et al. Infrared photosensitivity in silica glasses exposed to femtosecond laser pulses. Opt Lett, 1999,24(18) :1311 ~1313
[7] Kaoru Minoshima, Andrew M. Kowalevicz, Ingmar Hartl, etal. Photonic device fabrication in glass by use of nonlinear materials processing with a femtosecond laser oscillator. Opt Lett, 1999,26(19) :1516 ~ 1518
[8] Matthias Will, Stefan Nolte, Andreas Tuennermann. Threedimensional integrated optical device fabrication in glass by femtosecond laser processing. CLEO Technical Digest,2002,127:127 ~ 128
[9] Scarmozzino R, Gopinath A, Pregla R, et al. Numerical techniques for modeling guided-wave photonic devices. IEEE J Selected Topics in Quantum Electronics, 2000,6(1) :150 ~162
[10] Scarmozzino R,Osgood R M. Comparison of finite-difference and Fourier-transform solutions of the parabolic wave equation with emphasis on integrated-optics applications. J Opt Soc Amer A, 1991,8(5): 724 ~731
[11] Hadley G R. Transparent boundary condition for the beam propagation method. J Quantum Electron, 1992,28 (1):363 ~ 370
[12] Ni Xiaochang, Wang Chingyue, Wang Zhuan, et al. The study of nanojoule femtosecond laser ablation on organic glass. Chinese Optics Letter, 2003,1 (7) :429 ~431
[13] Ni Xiaochang, Wang Chingyue,Li Yanfeng,et al. Thermal Character in Organic Polymers with Nanojoule femtosecond Laser Ablation. Chinese Optics Letter, 2003,1 (9): 547 ~549