[1] N. V. Kukhtarev,V. B. Markov,S. G. Odulov et al.. Holographic storage in electro-optic crystals[J]. Ferroelectrics,1979,22(1):949-960
[6] Amnon Yariv,Sergei S. Orlov,George A. Rakuljic. Holographic storage dynamics in lithium niobate:theory and experiment[J]. J. Opt. Soc. Am. B,1996,13(11):2513-2523
[7] M. G. Moharam,T. K. Gaylord,R. Magnusson et al.. Holographic grating formation in photorefractive crystals with arbitrary electron transport lengths[J]. J. Appl. Phys.,1979,50(9):5642-5651
[8] C. H. Kawk,S. Y. Park,J. S. Jeong et al.. An analytical solution for large modulation effects in photorefractive two-wave couplings[J]. Opt. Commun.,1994,105(5-6):353-358
[9] G. A. Brost. Photorefractive grating formations at large modulation with alternating electric fields[J]. J. Opt. Soc. Am. B,1992,9(8):1454-1460
[10] G. A. Brost. Numerical analysis of photorefractive grating formation dynamics at large modulation in BSO[J]. Optics Communications,1993. 96(1-3):113-116
[11] E. Serrano,V. López,M. Carrascosa et al.. Recording and erasure kinetics in photorefractive materials at large modulation depths[J]. J. Opt. Soc. Am. B,1994,11(4):670-675
[12] E. Serrano,M. Carrascosa,F. Agulló-López. Analytical and numerical study of photorefractive kinetics at high modulation depths[J]. J. Opt. Soc. Am. B,1996,13(11):2587-2594
[16] Ji Jiarong,Feng Ying. Advanced Optics Tutorial-Nonlinear Optics and Waveguide Optics[M]. Beijing:science press,2008:85-94,165-180
[17] G. Montemezzani,M. Zgonik,P. Günter. Photorefractive charge compensation at elevated temperatures and application to KNbO3[J]. J.Opt. Soc. Am. B,1993,10(2):171-185
[18] Tadayuki Imai,Masahiro Sasaura,Koichiro Nakamura et al.. Crystal growth and electro-optic properties of KTa1 xNbxO3[J]. NTT Technical Review,2007,5(9):1-8
[19] Aharon J. Agranat,Lavi Secundo,Noam Golshani et al.. Wavelength-selective photonic switching in paraelectric potassium lithium tantalate niobate[J]. Optical Materials,2001,18(1):195-197