[4] LEE Y M,GOURLAY J,HOSSACK W J,et al.Modelling of binary phase modulation in surface stabilized ferroelectric liquid crystal spatial light modulator[J].Microelectronics Journal,2004,35:193-201.
[6] MIAS S,MANOLIS L G,COLLINGS N,et al.Phasemodulating bistable optically addressed spatial light modulators using wide-switching-angle ferroelectric liquid crystal layer[J].Optical Engineering,2005,44(1):014003-1-7.
[8] P(E)RENN(E)S F,WU Z Y.Schottky Barrier and Behaviour of the optically addressed spatial light modulator with metal mirrors[J].J Phys Ⅲ France,1997:451-459.
[9] P(E)RENN(E) S F,CROSSLAND W A.Optimization of ferroelectric liquid crystal optically addressed spatial light modulator performance[J].Optical Engineering,1997,36(8):2294-2301.
[10] TANAKA Y,TAKIMOTO A,OGAWA H.Analysis of charge-controlled grey scale in ferroelectric liquid crystal optically addressed spatial light modulator[J].Japanese Journal of Applied Physics,1994,33(Part 1,No.6A):3469-3477.
[11] LANDRETH B,MODDEL G.Gray scale response from optically addressed spatial light modulators incorporating surface-stabilized ferroelectric liquid crystals[J].Applied Optics,1992,31 (20):3937-3944.
[14] WANG M Y,PAN W,LUO B,et al.τ-Vmin addressing mode and an improved equivalent circuit model for ferroelectric liquid crystal displays[C].IEE Proceedings of Optoelectronics,(to be published.)
[15] SVEN T L.Ferroelectric and antiferroelectric liquid crystals[M].New York:Wiley-VCH,1999.