[1] Knox F M, Forsysiak W, Doran N J. 10 Gb/s soliton communication over standard fiber at 1.55 μm and the use of dispersion compensation [J]. J. Light. Wave. Technol., 1995, 13: 1955-1964.
[3] Ortigosa-Blnoch A, Knight J C, Wadsworth W J, et al. Highly bire-fringent photonic crystal fibers [J]. Opt. Lett., 2000, 25: 1325-1328.
[5] Castro-Camus E, Magana L F. Prediction of the physical response for the two-photon photorefractive effect [J]. Opt. Lett., 2003, 28(13): 1129-1131.
[6] Hou C F, Pei Y B, Zhou Z X. Spatial solitons in two-photon photorefractive media [J]. Physics Review A, 2005, 71(5): 053817.
[7] Hou C F, Zhang Y, Jiang Y Y. Photovoltaic solitons in two-photon photorefractive materials under open-circuit conditions [J]. Optics Communication, 2007, 273(2): 544-548.
[8] Zhang G Y, Liu J S. Screening-photovoltaic spatial solitons in biased two-photon photovoltaic photorefractive crystals [J]. Journal of the Optical Society of America B, 2009, 2(1): 113-120.
[10] Mangan B J. Experimental study of dual-core photonic crystal fibers [J]. Electron. Lett., 2000, 36: 1358-1359.
[11] Russell P St J, et al. Recent progress in photonic crystal fibers [C]. Proc. OFC, 2000, 3: 98-100.
[12] Kinght J C, Arriaga J, Birks T A, et al. Anomalous dispersion in photonic crystal fiber [J]. IEEE Photon. Technol. Lett., 2000, 12: 807-809.
[15] Mandel L, Wolf E. Optical Coherence and Quantum Optics [M]. Cambridge: Cambridge University Press.