[1] Chen H C, Xu Y H. Growth and some properties of undoped and doped (K1-xNax)0.4(Sr1-yBay)0.8Nb2O6single crystals with tungstenbronze structure. J Crys Grow, 1989,96(2): 357～362

[2] Liang B L, Wang Z Q, Mu G G, et al. Cartwright, diffraction properties of transmission photorefractive volume gratings in a Ce∶ KNSBN crystal. Appl Opt, 1999, 38(26): 5552～5555

[3] Kamshilin A A, prokofiev V V, Silvennoinen R, et al. Highly efficient hologram enhancement in Bi12TiO20 fiber-type crystal. Optical and Quantum Electronics, 1994, 26(4): 379～385

[4] Hesselink L. Photorefractive holographic recording in strontium barium niobate fibers. Opt Lett, 1988, 13(10): 877～879

[5] Kamshilin A A, Silvennoinen R, Jaaskelainen T.Two-wave mixing in photorefractive Bi12SiO20 fibers. Opt Lett, 1993, 18(9): 690～692

[6] Wang Zhaoqi, Liu Hongli, Mu Guoguang. Properties of Ce∶ KNSBN photorefractive fiber and its applications. Proceedings of SPIE, 2001, 4603:1～5

[7] Feinberg J. Real-time edge enhancement using the Photorefractive effect. Opt Lett, 1980, 5(8): 330～332

[8] Golomb M C, Fisher B, White J O, et al. Theory and application of four-wave-mixing in photorefractive media. IEEE Journal of Quantum Electron, 1984, QE-20 (1): 12～19

[9] Goltz J, Denzm C, Klumb H, et al. Four-wave mixing in photorefractive crystals with depleted pumps. Opt Lett, 1988, 13(4):321～323

[11] Liang B L, Wang Z Q, Mu G G, et al. Four-wave-mixing and edge-enhanced optical correlation in a Ce∶KNSBN crystal.Opt Lett, 2000, 25(15):1086～1088