[1] T. F. Krauss. Slow light in photonic crystal waveguides[J]. J. Phys. D: Appl. Phys.,2007,40: 2666～2670

[2] Toshihiko Baba, Daisuke Mori. Potential of slowlight in photonic crystal[C].SPIE, 6351: 63511Z-1～63511Z-9

[3] D. J. Gauthier, A. L. Gaeta, R. W. Boyd. Slow light: from basics to future prospects[J]. Photonics Spectra, March, 2006: 44～50

[4] Y. A. Vlasov, M. O’Boyle, H F. Hamann et al.. Active control of slow light on a chip with photonic crystal waveguides[J]. Nature, 2005, 438(7064): 65～69

[5] Alex Figotin, Ilya Vitebskiy. Slow light in photonic crystals[J]. Waves in Random and Complex Media, 2006, 6(3)293～382

[6] Liang Qingchang, Wang Haihua, J iang Zhankui. Investigation on electromagnetically induced transparency and slowing-down of group velocity in Eu3+ ∶Y2SiO5 Crystal[J]. Acta Optica Sinica, 2007, 27(5): 946～950

[7] M. Svaluto Moreolo, V. Morra, G. Cincotti. Design of photonic crystal delay lines based on enhanced coupled-cavity waveguides[J]. J. Opt. A: Pure Appl. Opt. 2008, 10, 064002-1～064002-6

[8] M. D. Settle, R. J. P. Engelen, M. Salib et al.. Flatband slow light in photonic crystals featuring spatial pulse compression and Terahertz bandwidth[J]. Opt. Express, 2007, 15(1): 219～226

[9] DaisukeMori, Toshihiko Baba. Wideband and low dispersion slow light by chirped photonic crystal coupled waveguide[J]. Opt. Express, 2005,13(23): 9398～9408

[10] M. T. Tinker, J-B. Lee. Thermal and optical simulation of a photonic crystal light modulator based on the thermo-optic shift of the cut-off frequency[J]. Opt. Exp., 2005,13(8): 7174～7188

[11] Edilson A. Camargo, Harold M. H. Chong, Richard M. De La Rue. 2D Photonic crystal thermo-optic switch based on AlGaAs/GaAs epitaxial structure[J]. Opt. Exp., 2004,12(4): 588～592

[12] Matthieu Roussey, Fadi I Baida. Experimental and theoretical observations of the slow-light effect on a tunable photonic crystal[J]. J. Opt. Soc. Am. B, 2007,24(6):1416～1422

[13] Li Dashan, Liu Liren, Liu Dean et al.. Photorefractive Grating Dynamics under Large Modulation and Strong Applied Electric Field[J], Acta Optica Sinica, 2007, 27(1): 148～154

[14] Jan Michael Brosi, Christian Koos, Lucio Claudio Andreani et al.. High-speed low-voltage electro-optic modulator with a polymer infiltrated silicon photonic crystal waveguide[J]. Opt. Exp., 2008, 16N(o. 6): 4177～4191

[15] M. Soljac^ic′, J. D. Joannopoulos. Enhancement of nonlinear effects using photonic crystals[J]. Nature Material, 2004, 13: 211～218

[16] M. Soljac^ic′,S. G. Johnson, S. Fan, E. Ippen et al.. Photonic-crystal slow-light enhancement of nonlinear phase sensitivity[J]. J. Opt. Soc. Am. B.,2002,19(9): 2052～2059

[17] Choon-Gi Choi, Chul-Sik Kee, Helmut Schift. Fabrication of polymer photonic crystal slabs using nanoimprint lithography[J]. Current Appl. Phys., 2006, 6(S1): e8～e11

[18] Quan Yujun, Han Peide, Lu Xiaodong et al.. A Numerical Method to Calculate and Analyze of Defect Modes in Two-Dimensional Photonic Crystal[J] . Acta Optica Sinica, 2006,26(12): 1841～1846

[19] Luca Razzari, Denis Trger, Magali Astic. Kerr and four-wave mixing spectroscopy at the band edge of one-dimensional photonic crystals[J]. Appl. Phys. Lett., 2005, 86: 231106-1～231106-3

[20] Yannick Dumeige, Isabelle Sagnes, Paul Monnier et al.. χ(2) semiconductor photonic crystals[J]. J. Opt. Soc. Am. B,2002, 19:2094～2101