[1] J. W. Goodman, F. I. Leonberger, S. Y. Kung et al.. Optical interconnects for VLSI systems. Proc. IEEE, 1984, 72(3): 850~866
[2] P. Yeh, A. E. T. Chiou, J. Hong. Optical interconnection using photorefractive dynamic holograms. Appl. Opt., 1988, 27(28): 2093~2095
[3] D. Psaltis, D. Brady, K. Wagner. Adaptive optical networks using photorefractive crystals. Appl. Opt., 1988, 27(22): 1752~1759
[4] J. E. Ford, Y. Fainman, S. H. Lee. Reconfigurable array interconnection by photorefractive correction. Appl. Opt., 1994, 33(36): 5363~5377
[5] J. J. Amodei, D. L. Stuebler. Improved electrooptic materials and fixing techniques for holographic recording. Appl. Opt., 1972, 11(1): 390~396
[6] M. Carrasoosa, F. Agulló-López. Theoretical modeling of the fixing and developing of holographic grating in LiNbO3. J. Opt. Soc. Am. (B), 1990, 7(12): 2317~2322
[7] J. F. Heanue, M. C. Bashaw, A. J. Daiber et al.. Digital holographic storage system incorporating thermal fixing in lithium niobate. Opt. Lett., 1996, 21(11): 1615~1617
[8] D. Psaltis, G. Barbastathis, A. Pu. Holographic memories. Proc. SPIE, 1996, 2778: 418~421
[9] L. Hesselink, J. Heanue, M. C. Bashaw. Holographic digital data storage system. Proc. SPIE, 1996, 2778: 410~413
[10] Y. Qiao, Ming Tong. Electrical fixing of photorefractive holograms in Sr0.75Ba0.25Nb2O6. Opt. Lett., 1993, 18(8): 1004~1006
[11] M. Mansuripur, G. A. Neville Connell, J. Goodman. Laser-induced local heating of multilayers. Appl. Opt., 1982, 21(7): 1106~1114
[12] K. L. Saenger, J. Gupta. Laser interferometric thermometry for substrate temperature measurement. Appl. Opt., 1991, 30(8): 1221~1226
[13] R. A. Morgan, K. I. Kang, C. C. Hsu et al.. Measurement of the thermal diffusivity of nonlinear anisotropic crystals using optical interferometry. Appl. Opt., 1987, 26(36): 5266~5271
[14] V. V. Zhdanova, V. P. Klyuev, V. V. Lemonov et al.. Thermal properties of lithium niobate crystals. Sov. Phys. Solid State, 1968, 10(9): 1360~1364