[1] P. R. Ashley,Jr. T. A. Tumolillo. Channel waveguides in electro-optic polymers using a photopolymer cladding technique[J]. Appl. Phys. Lett.,1991,58(9):884-886
[2] C. C. Teng. Traveling-wave polymeric optical intensity modulator with more than 40 GHz of 3 dB electrical bandwidth[J]. Appl. Phys. Lett.,1992,60(13):1538-1540
[3] T. E. Van Eck,A. J. Ticknor,R. S. Lytel et al.. Complementary optical tap fabricated in an electro-optic polymer waveguide [J]. Appl. Phys. Lett.,1991,58(15):1588-1590
[6] Y. Jiang,Z. Q. Cao,G. Chen et al.. Low voltage electro-optic polymer modulator using attenuated total internal reflection [J]. Opt. & Laser Technol,2001,33(6):417-420
[7] Yongqiang Shi,Cheng Zhang,Hua Zhang et al.. Low (Sub-1-Volt) halewave voltage polymeric electro-optic modulators achieved by controlling chromophore shape[J]. Science,2000,288(5463):119-122
[8] Y. Enami,C. T. DeRose,C. Loychik et al.. Low half-wave voltage and high electro-optic effect in hybrid polymer/sol-gel waveguide modulators[J]. Appl. Phys. Lett.,2006,89(14):143506
[9] Jr. T. A Tumolillo,Paul R. Ashley. Multilevel registered polymeric Mach-Zehnder intensity modulator array[J]. Appl. Phys. Lett.,1993,62(24):3068-3070
[10] Y. F. Yang,Y. Jie,Z. Q. Cao et al.. Fabrication and characteristics of thermal crosslinking polyurethane integrated double-channel electro-optic modulator[J]. Opt. & Laser Technol,2007,39(5):1008-1013
[11] Michael P. C. Conrad,Molly S. Schoichet. Synthesis and thermal stability of hybrid fluorosilicone polymers[J]. Polymer,2007,48(18):5233-5240
[12] A. Belardini,L. Dominici,M. C. Larciprete et al.. Enhanced stability of the second order optical properties of high Tg fluorinated electro-optic copolymer[J]. Appl. Phys. Lett.,2006,89(23):231110
[13] Y. H. Kuo,Jingdong Luo,W. H. Steier et al.. Enhanced thermal stability of electrooptic polymer modulators using the Diels-Alder crosslinkable polymer[J]. IEEE Photon Technol Lett.,2006,18(1-4):175-177
[14] A. Apostoluk,J. M. Nunzi,V. Boucher et al.. Permanent light-induced polar orientation via all-optical poling and photothermal cross-linking in a polymer thin film[J]. Opt. Commun.,2006,260(2):708-711
[15] Shen Yuquan,Qiu Ling,Li Zao et al.. The second order nonlinear optical property of a series polyester containng push-pull azobenzene chromophore in their side chain[J]. J. Materials Science,1999,34(7):1513-1517
[16] Mai Chen,L Yu,L. R. Dalton et al.. New polymers with large and stable second-order nonlinear optical effect [J]. Macromolecules,1991,24(19):5421-5428
[18] Y. Jiang,Z. Q. Cao,Q. S. Shen et al.. Improved attenuated-total-reflection technique for measuring the electro-optic coefficients of nonlinear optical polymers[J]. J. Opt. Soc. Am. B,2000,17(5):805-808
[19] Cao Zhuangqi. Guided Wave Optics[M]. Shanghai :Shanghai Jiaotong University Press,2007. 96-102