References
- Mu Q, Cao Z, Hu L, et al. Adaptive optics imaging system based on a high-resolution liquid crystal on silicon device. Opt Express. 2006;14:8013–8018.
- Yun HJ, Mi HJ, Jang IW, et al. Achieving high light efficiency and fast response time in fringe field switching mode using a liquid crystal with negative dielectric anisotropy. Liq Cryst. 2012;39:1141–1148.
- Demus D. Physical properties of liquid crystals. Wiley-VCH Verlag GmbH; 2009.
- Peng F, Chen H, Tripathi S, et al. Fast-response infrared phase modulator based on polymer network liquid crystal. Opt Mater Express. 2015;5:265–273.
- Giles MK, Dou R. Closed-loop adaptive-optics system with a liquid-crystal television as a phase retarder. Opt Lett. 1995;20:1583–1585.
- Xu D, Rao L, Tu CD, et al. Nematic liquid crystal display with submillisecond grayscale response time. J Disp Technol. 2013;9:67–70.
- Xu D, Chen H, Wu ST, et al. A fringe field switching liquid crystal display with fast grayscale response time. J Disp Technol. 2015;11:353–359.
- Lim YJ, Kim JH, Choi HS, et al. Maximizing electro-optic performances in the fringe-field switching liquid crystal mode with negative dielectric anisotropic liquid crystal. J Soc Inf Display. 2015;23:553–559.
- Gauza S, Jiao M, Wu ST, et al. High birefringence and low viscosity negative dielectric anisotropy liquid crystals. Liq Cryst. 2008;35:1401–1408.
- Sun J, Xu S, Ren H, et al. Reconfigurable fabrication of scattering-free polymer network liquid crystal prism/grating/lens. Appl Phys Lett. 2013;102:161106.
- Berkel CV, Clarke JA. Characterization and optimization of 3D-LCD module design. Proc Spie. 1997;3012:515–527.
- Alt PM. Single crystal silicon for high resolution displays. Conf. Record, 17th Int'l. Display Research Conf.; 1997. p. m19–28.
- Kurogane H, Doi K, Nishihata T, et al. 5.3: reflective AM LCD for projection displays: D‐ILA™. SID Tech Digest. 1998;29:33–36.
- Sathyanarayana P, Kumar TA, Sastry VSS, et al. Rotational viscosity of a bent-core nematic liquid crystal. Appl Phys Express. 2010;3:091702.
- Yang DK, Wu ST. Fundamentals of liquid crystal devices. Chichester (UK): John Wiley & Sons; 2006.
- Wu ST, Wu CS. Experimental confirmation of the Osipov-Terentjev theory on the viscosity of nematic liquid crystals. Phys Rev A. 1990;42:2219–2227.
- Dark ML, Moore MH, Shenoy DK, et al. Rotational viscosity and molecular structure of nematic liquid crystals. Liq Cryst. 2006;33:67–73.
- Kneppe H, Schneider F. Determination of the rotational viscosity coefficient γ1 of nematic liquid crystals. J Phys E. 1983;16:512–515.
- Prost J, Gasparoux H. Determination of twist viscosity coefficient in the nematic mesophases. Phys Lett A. 1971;36:245–246.
- Imai M, Naito H, Okuda M, et al. Determination of rotational viscosity of nematic liquid crystals from transient current: numerical analysis and experiment. Jpn J Appl Phys. 1994;33:3482–3487.
- Imai M, Naito H, Okuda M, et al. Determination of rotational viscosity and pretilt angle in nematic liquid crystals from transient current: influence of ionic conduction. Mol Cryst Liq Cryst. 1995;259:37–46.
- Dorjgotov E, Fodor-Csorba K, Gleeson JT, et al. Viscosities of a bent-core nematic liquid crystal. Liq Cryst. 2008;35:149–155.
- Dietich D. Physical properties of liquid crystals. Germany: Wiey-VCH; 1999.
- Jiao M, Ge Z, Song Q, et al. Alignment layer effects on thin liquid crystal cells. Appl Phys Lett. 2008;92:69–72.
- Morris SW, Palffy-Muhoray P, Balzarini DA. Measurements of the bend and splay elastic constants of octyl-cyanobiphenyl. Mol Cryst Liq Cryst. 1986;139:263–280.
- Ye WJ, Yuan R, Dai YY, et al. Improvement of image sticking in liquid crystal display doped with γ-Fe2O3 nanoparticles. Nanomater. 2018;8:8010005.
- Chen H, Zhu R, Zhu J, et al. A simple method to measure the twist elastic constant of a nematic liquid crystal. Liq Cryst. 2015;42:1738–1742.
- Dai YY, Gao L, Chang YK, et al. Dielectric and elastic properties of fluorine-containing tricyclic isothiocyanate liquid crystal. Liq Cryst. 2019;46:930–940.
- Ye WJ, Li ZJ, Yuan R, et al. Accurate measurement of the twist elastic constant of liquid crystal by using capacitance method. Liq Cryst. 2019;46:349–355.
- Li J, Wu ST. Self-consistency of Vuks equations for liquid-crystal refractive indices. J Appl Phys. 2004;96:6253–6258.
- Dai YY, Gao L, Wang MH, et al. Improvement of the dynamic responses of liquid crystal mixtures through γ-Fe2O3 nanoparticle doping and driving mode adjustment. Liq Cryst. 2019;46:1643–1654.
- Gao L, Dai YY, Li T, et al. Enhancement of image quality in LCD by doping γ-Fe2O3 nanoparticles and reducing friction torque difference. Nanomater. 2018;8:8110911.
- Wu ST, Lackner AM, Efron U. Optimal operation temperature of liquid crystal modulators. Appl Opt. 1987;26:3441–3445.