[1] C. T. Chen,D. M. Kim,D.von der Linder. Efficient hologram recording in LiNbO3:Fe using optical pulses [J]. Appl. Phys. Lett.,1979,34(5):321-324
[2] G. C. Valley. Short-pulse grating formation in photorefractive materials[J]. IEEE J. Quantum Electron.,1983,QE-19(11):1637-1645
[5] Y. Ding,D. D. Nolte ,Z. Zheng et al.. Bandwidth study of volume holography in photorefractive InP:Fe for femtosecond pulse readout at 1. 5 μm[J]. J . Opt . Soc. Am. B,1998 ,15(11):2763-2768
[8] Aimin Yan,L. R. Liu,Yanan Zhi et al.. Bragg diffraction of multiplayer volume holographic gratings under ultrashort laser pulse readout [J]. J. Opt. Soc. Am. B,2009,26(1):135-141
[9] Bing Yang,Xiaona Yan,Yanhua Yang et al.. Study on the instantaneous characteristics of diffracted and transmitted light of static photorefractive grating illuminated by ultra-short pulse laser [J]. Optics & Laser Technology,2008,40:906-911
[10] B. Yang,X. Yan,B. K. Yu. Theoretical study on grating formation in photovoltaic photorefractive LiNbO3 crystal with short light pulses [J]. Optical and Quantum Electronics,2005,37(8):723-733
[11] Chen Yang,Xiaona Yan. Influence of dispersion-on diffractive properties of volume grating in photorefractive InP:Fe for femtosecond pulse readout [J]. Optik,
[13] Kebin Jia,Dapeng Yang,Shubo Dun et al.. Holographic storage scheme based on digital signal processing[J]. Chin. Opt . Lett.,2003,1(10):579-582
[14] Liu Simin,Guo Ru,Ling Zhenfang. Photo Refractive Nonlinear Optics[M]. Beijing:Science Press,1992