[1] Huang Jianbing, Wang Yingjian, Deng Zhi et al.. Investigetion on preparation and performance of phase retarder in chemical oxygen-iodine laser［J］. Chinese J. Lasers, 2005, 32(2): 277～280

[2] Fang Wang, Jianbing Huang, Yingjian Wang et al.. Phase retarder in chemical oxygen-iodine laser at 45° incidence［J］. Chin. Opt. Lett., 2006, 4(2): 114～115

[3] Huang Jianbing, Shao Jianda, Wang Yingjian et al.. Preparation and performance of phase retarder at the wavelength of 1315 nm［C］. SPIE, 2004, 5774: 357～360

[4] Wang Jinfeng, Yang Fu. Design of wide-angle reflection-induced phase retarder［J］. Optical Technique, 2005, 31(5): 739～741

[5] I. Filinski, T. Skettrup. Achromatic phase retarders constructed from right-angle prisms: design［J］. Appl. Opt., 1984, 23(16): 2747～2751

[6] R. M. A. Azzam, A. Alsamman. Efficiency of linear-to-circular polarization conversion for light reflection at the principal angle by a dielectric-conductor interface［J］. J. Opt. Soc. Am. A, 2008, 25(4): 834～837

[7] Konstantin V. Popov, J. A. Dobrowolski, Alexander V. Tikhonravov et al.. Broadband high-reflection multilayer coatings at oblique angles of incidence［J］. Appl. Opt., 1997, 36(10): 2139～2142

[8] Huang Jianbing, Wang Yingjian, Fang Ming et al.. Design of 90°reflection-induced phase retarder［J］. Acta Optica Sinica, 2004, 24(9): 1169～1172

[9] R. M. A. Azzam, M. M. K. Howlader. Bilayer coatings that produce a 90° differential reflection phase shift at oblique incidence: all possible solutions［J］. Thin Solid Films, 1996, 272(1): 143～147

[10] W. H. Southwell. Multilayer coating design achieving a broadband 90° phase shift［J］. Appl. Opt., 1980, 19(16): 2688～2692

[11] M. M. K. Howlader, R. M. A. Azzam. Periodic and quasiperiodic nonquarterwave multilayer coatings for 90 deg reflection phase retardance at 45 deg angle of incidence［J］. Opt. Eng., 1995, 34(3): 869～875

[12] Tang Jinfa, Gu Peifu, Liu Xu et al.. Modern Optical Thin Film Technology［M］. Hangzhou: Zhejiang University Press, 2007. 24～29

[13] Liao Chunyan, Wu Zubin, Fan Zhengxiu et al.. Negative dispersion mirrors in Ta2O5/SiO2 for femtosecond Tisapphire lasers by using Gires-Tournois interferometers［J］. Chin. Phys. Lett., 2005, 22(6): 1443～1445

[14] Liao Chunyan, Shao Jianda, Fan Zhengxiu. Design of negative dispersion mirrors used for the femtosecond-pulse laser［J］. Acta Photonica Sinica, 2005, 34(5): 730～733

[15] Macleod H. A.. Thin Film Optical Filters［M］. Bristol and Philadelphia: Institute of Physics Publishing, 2001: Chapter 2

[16] K. Ferencz, R. Szipocs. Recent developments of laser optical coatings in Hungary [J]. Opt. Eng., 1993, 32(10): 2525～2538

[17] Huang Jianbing. The Investigation on the Optical and Phase Performance of Coatings by Ion-Beam Sputter［D］. Shanghai:Shanghai Insititue of Optics and fine Mechanics, Chinese Academy of Sciences, 2005. 86～89

[18] G. Hass, J. B. Heaney, H. Herzig et al.. Reflectance and durablity of Ag mirrors coated with thin layer of Al2O3 plus reactively deposited silicon oxide［J］. Appl. Opt., 1975, 14(11): 2639～2644

[19] Deng Yuanlong, Li Yuezhi, Wu Yubin et al.. Influence of metal-coated mirrors on measurement accuracy in heterodyne interfermetric ellipsometry［J］. Chinese J. Lasers, 2009, 36(2): 439～443

[20] Xiao Xiudi, Dong Guoping, Deng Songwen et al.. Effects of heat treatment on TiO2 sculptured thin film birefringence prepared by electron beam deposition［J］. Chinese J. Lasers, 2009, 36(8): 2166～2170

[21] Miao Jie, Lin Qiang, Zhang Yanli et al.. Four-zone method to eliminate influence of polarizing prisms imperfections on measurement of phase retardation of wave plates［J］. Acta Optica Sinica, 2008, 28(10): 1938～1941