[1] Y. Q. Lu, Y. Li. Planar liquid crystal polarization optics for near-eye displays. Light Sci. Appl., 10, 122(2021).
[2] S. R. Seyednejad, M. R. Mozaffari. Conically degenerate anchoring effect in planar nematic-liquid-crystal shells. Phys. Rev. E, 104, 014701(2021).
[3] Y. Jiang, G. Qin, X. Xu, L. Zhou, S. Lee, D. K. Yang. Image flickering-free polymer stabilized fringe field switching liquid crystal display. Opt. Express, 26, 32640(2018).
[4] R. Kumar, K. K. Raina. Electrically modulated fluorescence in optically active polymer stabilised cholesteric liquid crystal shutter. Liq. Cryst., 41, 228(2014).
[5] H. Ren, S. Xu, D. Ren, S. T. Wu. Novel optical switch with a reconfigurable dielectric liquid droplet. Opt. Express, 19, 1985(2011).
[6] J. Sun, Y. Chen, S. T. Wu. Submillisecond-response and scattering-free infrared liquid crystal phase modulators. Opt. Express, 20, 20124(2012).
[7] Y. H. Lin, H. Ren, Y. H. Wu, Y. Zhao, J. Fang, Z. Ge, S. T. Wu. Polarization-independent liquid crystal phase modulator using a thin polymer-separated double-layered structure. Opt. Express, 13, 8746(2005).
[8] B. Wei, Y. Zhang, P. Li, S. Liu, W. Hu, Y. Lu, Y. Wu, X. Dou, J. Zhao. Liquid-crystal splitter for generating and separating autofocusing and autodefocusing circular Airy beams. Opt. Express, 28, 26151(2020).
[9] S. An, Y. Shi, Z. Yi, C. Liu, T. Sun, J. Lv, L. Yang, P. Chu. Ultra-short dual-core GaAs photonic crystal fiber splitter filled with nematic liquid crystal. Opt. Eng., 60, 056104(2021).
[10] S. Ge, P. Chen, Z. Shen, W. Sun, X. Wang, W. Hu, Y. Zhang, Y. Lu. Terahertz vortex beam generator based on a photopatterned large birefringence liquid crystal. Opt. Express, 25, 12349(2017).
[11] Z. He, K. Yin, S. T. Wu. Miniature planar telescopes for efficient, wide-angle, high-precision beam steering. Light Sci. Appl., 10, 134(2021).
[12] Z. X. Li, Y. P. Ruan, P. Chen, J. Tang, W. Hu, K. Y. Xia, Y. Q. Lu. Liquid crystal devices for vector vortex beams manipulation and quantum information applications. Chin. Opt. Lett., 19, 112601(2021).
[13] J. Yan, X. Fan, Y. Liu, Y. Yu, Y. Fang, R. Z. Li. Passive patterned polymer dispersed liquid crystal transparent display. Chin. Opt. Lett., 20, 013301(2022).
[14] Y. Zhang, B. Wei, S. Liu, P. Li, X. Chen, Y. Wu, X. Dou, J. Zhao. Circular Airy beams realized via the photopatterning of liquid crystals. Chin. Opt. Lett., 18, 080008(2020).
[15] D. K. Yang, S. T. Wu. Fundamentals of Liquid Crystal Devices(2014).
[16] B. X. Li, V. Borshch, R. L. Xiao, S. Paladugu, T. Turiv, S. V. Shiyanovskii, O. D. Lavrentovich. Electrically driven three-dimensional solitary waves as director bullets in nematic liquid crystals. Nat. Commun., 9, 2912(2018).
[17] I. C. Khoo, S. L. Zhuang. Nonlinear optical amplification in a nematic liquid crystal above the Frederiks transition. Appl. Phys. Lett., 37, 3(1980).
[18] I. C. Khoo, Y. Liang, H. Li. Observation of stimulated orientational scattering and cross-polarized self-starting phase conjugation in a nematic liquid-crystal film. Opt. Lett., 20, 130(1995).
[19] A. R. Geivandov, M. I. Barnik, V. S. Palto, I. V. Simdyankin, S. P. Palto. Submillisecond electro-optical response of a nematic liquid crystal in the bidirectional field switching mode. Crystallogr. Rep., 63, 971(2018).
[20] A. B. Golovin, S. V. Shiyanovskii, O. D. Lavrentovich. Fast switching dual-frequency liquid crystal optical retarder, driven by an amplitude and frequency modulated voltage. Appl. Phys. Lett., 83, 3864(2003).
[21] S. Guo, X. Liang, H. Zhang, W. Shen, C. Li, X. Wang, C. Zhang, L. Zhang, H. Yang. An electrically light-transmittance-controllable film with a low-driving voltage from a coexistent system of polymer-dispersed and polymer-stabilised cholesteric liquid crystals. Liq. Cryst., 45, 1854(2018).
[22] C. Y. Li, X. Wang, X. Liang, J. Sun, C. X. Li, S. F. Zhang, L. Y. Zhang, H. Q. Zhang, H. Yang. Electro-optical properties of a polymer dispersed and stabilized cholesteric liquid crystals system constructed by a stepwise UV-initiated radical/cationic polymerization. Crystals, 9, 282(2019).
[23] G. Pan, H. Cao, R. Guo, W. Li, J. Guo, Z. Yang, W. Huang, W. He, X. Liang, D. Zhang, H. Yang. A polymer stabilized liquid crystal film with thermal switching characteristics between light transmission and adjustable light scattering. Opt. Mater., 31, 1163(2009).
[24] L. Zhang, K. Li, W. Hu, H. Cao, Z. Cheng, W. He, J. Xiao, H. Yang. Broadband reflection mechanism of polymer stabilised cholesteric liquid crystal (PSChLC) with pitch gradient. Liq. Cryst., 38, 673(2011).
[25] J. Guo, H. Cao, J. Wei, D. Zhang, F. Liu, G. Pan, D. Zhao, W. He, H. Yang. Polymer stabilized liquid crystal films reflecting both right- and left-circularly polarized light. Appl. Phys. Lett., 93, 201901(2008).
[26] X. Li, X. Du, P. Guo, J. Zhu, W. Ye, Q. Xu, Y. Sun. Fast switchable dual-model grating by using polymer-stabilized sphere phase liquid crystal. Polymers, 10, 884(2018).
[27] R. Zhao, X. Li, K. Wang, H. Huai, H. Ma, Y. Sun. Effect of the introduction of mono-functional monomer on the electro-optic properties of reverse-mode polymer stabilised cholesteric liquid crystal. Liq. Cryst., 48, 1162(2021).
[28] L. Weng, A. Varanytsia, K. H. Chang, L. C. Chien. Simulation and fabrication of a fast fringe-field switching liquid crystal with enhanced surface anchoring enabled by controlled polymer topology. J. Soc. Inf. Display., 24, 621(2016).
[29] V. Borshch, S. V. Shiyanovskii, O. D. Lavrentovich. Nanosecond electro-optic switching of a liquid crystal. Phys. Rev. Lett., 111, 107802(2013).
[30] V. Borshch, S. V. Shiyanovskii, B. X. Li, O. D. Lavrentovich. Nanosecond electro-optics of a nematic liquid crystal with negative dielectric anisotropy. Phys. Rev. E, 90, 062504(2014).
[31] B. X. Li, S. V. Shiyanovskii, O. D. Lavrentovich. Nanosecond switching of micrometer optical retardance by an electrically controlled nematic liquid crystal cell. Opt. Express, 24, 29477(2016).