[1] KUITIAR P, PRAKASHB C, THAKUR O P, et al. Dielectric ferroelectric and pyroelectric properties of PMNT ceramics［J］. Physica B: Condensed Matter, 2006, 371(2): 313-316.

[2] LAPPALAINEN J, HILTUNEN J, LANTTO V. Characterization of optical properties of nanocrystalline doped PZT thin films［J］. Journal of the European Ceramic Society, 2005, 25(12): 2273-2276.

[3] ZHANG R, JIANG B, CAO W W. Elastic, piezoelectric, and dielectric properties of multidomain 0.67Pb(Mg1/3Nb2/3)O-3-0.33PbTiO(3) single crystals［J］. Journal of Applied Physics, 2001, 90(7): 3471-3475.

[4] NOHEDA B, COX D E, SHIRANE G, et al. Phase diagram of the ferroelectric (1-x)PbMg1/3Nb2/3O3-xPbTiO3［J］. Physical Review B, 2002, 66(5): 054104.

[5] LU Y L, GAO C. Optical limiting in lead magnesium niobate-lead titanate multilayers［J］. Applied Physics Letters, 2008, 92(12): 121109.

[6] LIM B C, PHUA P B, LAI W J, et al. Fast switchable electro-optic radial polarization retarder［J］. Optics Letters, 2008, 33(9): 950-952.

[7] RAN Mao-wu, CHEN Xian-feng, CAO Zhuang-qi. Measurement of quadratic electro-optic coefficient of PMN-PT transparent ceramics based on ultrahigh-order guide modes［J］. Acta Optica Sinica, 2011, 31(10): 111-114.

[8] LIN Y T, REN B, ZHAO X Y, et al. Large quadratic electro-optic properties of ferroelectric base 0.92Pb(Mg1/3Nb2/3)O3-0.08PbTiO3 single crystal［J］. Journal of Alloys and Compounds, 2010, 507(2): 425-428.

[9] HE C J, GE W W, ZHAO X Y, et al. Wavelength dependence of electro-optic effect in tetragonal lead magnesium niobate lead titanate single crystals［J］. Journal of Applied Physics, 2006, 100(11): 113119.

[10] HE C J, ZHOU Z X, LIU D J, et al. Photorefractive effect in relaxor ferroelectric 0.62Pb(Mg1/3Nb2/3)O3-0.38PbTiO3 single crystal［J］. Applied Physics Letters, 2006, 89(26): 261111.

[11] PARK S E, SHROUT T R. Ultrahigh strain and piezoelectric behavior in relaxor based ferroelectric single crystals［J］. Journal of Applied Physics, 1997, 84(4): 1804-1811.

[12] XIAO P P. Beam reshaping in the occurrence of the Goos-Hnchen shift［J］. JOSA B, 2011, 28(8): 1895- 1898.

[13] XIAO Ping-ping, HU Hong-wu. Wavelength sensing based on the Goos-H nchen effect［J］. Acta Photonica Sinica, 2011, 40(10): 1595-1598.

[14] CHEN W P, CHEN J M. Use of surface plasma waves for determination of the thickness and optical constants of thin metallic films［J］. JOSA, 1981, 71(2): 189-191.

[15] LI K K, LU Y, WANG Q. Electro-optic ceramic material and device［P］. U.S. 6 890 874B1, 2005.

[16] RAN Mao-wu, CHEN Xian-feng, CAO Zhuang-qi. Measurement of quadratic electro optic coefficent of PMN-PT transparent ceramica based on ultrahigh-order guide mode［J］. Acta Optica Sinica, 2011, 30(10): 1012002.

[17] PONSARD M C, DESVIGNES J M, BELLEMAIN A, et al. Simulatneous characterization of the electro-optic, converse-piezoelectirc, and electroabsorptive effects in epitaxial (Sr, Ba)Nb2O6 thin films［J］. Journal of Applied Physics, 2011, 109(4): 014107.

[18] KURIHARA K, SUZUKI K. Theoretical understanding of an absorption-based surface plasmon resonance sensor based on Kretchmann′s theory［J］. Analytical Chemistry, 2002, 74(3): 696-701.