[1] P F Mcmanamon, P J Bos, M J Escuti, et al.. A review of phased array steering for narrow-band electrooptical systems [C]. Proc of IEEE, 2009, 97(6): 1078-1096.
[3] P F Mcmanamon. Agile nonmechanical beam steering [J]. Optics and Photonics News, 2006, 17(3): 25-29.
[4] I W Smith, K O H Michael. Wide-angle beam steering system: US 7215472[P]. 2007-05-08.
[5] H Kogelnik. Coupled wave theory for thick hologram gratings [J]. Bell syst tech J,1969, 48(9): 2909-2945.
[6] M G Moharam, T K Gaylord. Rigorous coupled-wave analysis of planar-grating diffraction [J]. J Opt Soc Am, 1981, 71(7): 811-818.
[7] L Solymar. A general two-dimensional theory for volume holograms [J]. Appl Phys Lett, 1977, 31(12): 820-822.
[8] D J Cooke, L Solymar, C J R Shppard. A three-dimensional vectorial theory for volume holograms [J]. Int J Electron, 1979, 46(4):337-356.
[9] A Khavasi, K Mehrany, B Rashidian. Three-dimensional diffraction analysis of gratings based on Legendre expansion of electromagnetic fields [J]. J Opt Soc Am B, 2007, 24(10): 2676-2685.
[13] I V Ciaputin, L B Glebov, V I Smirnov. Modeling of Gaussian beam diffraction on volume bragg gratings in PTR glass [C]. SPIE, 2005, 5742: 183-194.
[14] L Glebov. Fluorinated silicate glass for conventional and holographic optical elements [C]. SPIE, 2007, 6545(7): 1-9.
[15] K Buse, A Adibi, D Psaltis. Non-volatile holographic storage in doubly doped lithium niobate crystals [J]. Nature, 1998, 393(7): 665-668.
[16] Dong Qianmin, Liu Liren, Liu De′an, et al.. Effect of dopant composition ratio on nonvolatile holographic recording in LiNbO3CuCe crystals [J]. Appl Opt, 2004, 43(26): 5016-5022.
[17] Liu Youwen, Liu Liren, Liu De′an, et al.. Intensity dependence of two-center nonvolatile holographic recording in LiNbO3CuCe crystals [J]. Optics, 2001, 21(10): 339-343.
[18] Ren Liyong, Liu Liren, Liu De′an, et al.. Recording and fixing dynamics of nonvolatile photorefractive in LiNbO3FeMn crystals [J]. J Opt Soc Am B, 2003, 20(10): 2162-2173.
[19] A Adibi, K Buse, D Psaltis. Effect of annealing in two-center holographic recording [J]. Appl Phys Lett, 1999, 74(25): 3767-3769.
[20] F H Mok, M G Tackitt, H M Stoll. Storage of 500 high-resolution holograms in a LiNbO3 crystal [J]. Opt Lett, 1991, 16(8): 605-607.
[21] F H Mok. Angle-multiplexed storage of 5000 holograms in lithium niobate [J]. Opt Lett, 1993, 18(11): 915-917.
[22] E S Maniloff, S B Altner, S Bernet, et al.. Recording of 6000 holograms by use of spectral hole burning [J]. Appl Opt, 1995, 34(20): 4140-4148.
[23] Zhang Yanyan, Zhou Changhe, Liu Liren, et al.. Design and fabrication of high-density holographic gratings for DWDM applications [C]. SPIE, 2003, 5184: 219-225.
[24] Z Yaqoob, M A Arain, N A Riza. High-speed two-dimensional laser scanner based on Bragg gratings stored in photothermorefractive glass [J]. Appl Opt, 2003, 42(26): 5251-5262.