References
- Gabor D. A new microscopic principle. Nature. 1948;161(4098):777–778.
- Geng J. Three-dimensional display technologies. Adv Opt Photon. 2013;5(4):456–535.
- Arai D, Shimobaba T, Murano K, et al. Acceleration of computer-generated holograms using tilted wavefront recording plane method. Opt Express. 2015;23(2):1740–1747.
- Zhang Z, Liu J, Jia J, et al. Tunable nonuniform sampling method for fast calculation and intensity modulation in 3D dynamic holographic display. Opt Lett. 2013;38(15):2676–2679.
- Wakunami K, Yamaguchi M. Calculation for computer generated hologram using ray-sampling plane. Opt Express. 2011;19(10):9086–9101.
- Zhou P, Li Y, Liu S, et al. Dynamic compensatory Gerchberg–Saxton algorithm for multiple-plane reconstruction in holographic displays. Opt Express. 2019;27(6):8958–8967.
- Lynn B, Blanche PA, Peyghambarian N. Photorefractive polymers for holography. J Polym Sci Part B. 2014;52:193–231.
- Blanche PA, Bablumian A, Voorakaranam R, et al. Holographic three-dimensional telepresence using large-area photorefractive polymer. Nature. 2010;468:80–83.
- Tay S, Blanche PA, Voorakaranam R, et al. An updatable holographic three-dimensional display. Nature. 2008;451:694–698.
- Tsutsumi N, Kinashi K, Nonomura A, et al. Quickly updatable hologram images using poly (N-vinyl carbazole)(PVCz) photorefractive polymer composite. Materials. 2012;5:1477–1486.
- Rudenko EV, Sukhov AV. Photoinduced electrical conductivity and photorefraction in a nematic liquid crystal. JETP Lett. 1994;59:142–146.
- Wiederrecht GP, Yoon BA, Wasielewski MR. High photorefractive gain in nematic liquid crystals doped with electron donor and acceptor molecules. Science. 1995;270(5243):1794–1797.
- Khoo IC, Ding J, Zhang Y, et al. Supra-nonlinear photorefractive response of single-walled carbon nanotube-and C60-doped nematic liquid crystal. Appl Phys Lett. 2003;82:3587–3589.
- Sasaki T, Ikegami M, Abe T, et al. Real-time dynamic hologram in photorefractive ferroelectric liquid crystal with two-beam coupling gain coefficient of over 800 cm–1 and response time of 8 ms. Appl Phys Lett. 2013;102:31.
- Li X, Chen CP, Gao H, et al. Video-rate holographic display using azo-dye-doped liquid crystal. J Disp Technol. 2013;10:438–443.
- Li X, Chen CP, Li Y, et al. 51.1: real‐time holographic display using quantum dot doped liquid crystal. SID Symp Dig Tech Pap. 2014;45:736–738.
- Li X, Chen CP, Li Y, et al. High-efficiency video-rate holographic display using quantum dot doped liquid crystal. J Disp Technol. 2016;12(4):362–367.
- Zhou P, Li Y, Liu S, et al. Colour 3D holographic display based on a quantum-dot-doped liquid crystal. Liq Cryst. 2019;46(10):1478–1484.
- Yao F, Hong R, Gao Y, et al. Dynamic holographic liquid crystal device containing nanoscale CuPc film. Liq Cryst. 2019;46:1108–1116.
- Dai Y, Gao L, Wang M, 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.
- Mirzaei J, Reznikov M, Hegmann T. Quantum dots as liquid crystal dopants. J Mater Chem. 2012;22(42):22350–22365.
- Anczykowska A, Bartkiewicz S, Nyk M, et al. Study of semiconductor quantum dots influence on photorefractivity of liquid crystals. Appl Phys Lett. 2012;101(10):101107.
- Zhou P, Li Y, Li X, et al. Holographic display and storage based on photo-responsive liquid crystals. Liq Cryst Rev. 2016;4(2):83–100.
- Khoo IC, Chen K, Williams YZ. Orientational photorefractive effect in undoped and CdSe nanorods-doped nematic liquid crystal—bulk and interface contributions. IEEE J Quantum Elect. 2006;12:443–450.
- Khoo IC. Orientational photorefractive effects in nematic liquid crystal films. IEEE J Quantum Elect. 1996;32(3):525–534.
- Xiang Y, Liu YK, Li T, et al. Laser induced gratings enhanced by surface-charge mediated electric field in doped nematic liquid crystals. J Appl Phys. 2008;104:063107.
- Khoo IC, Ding J, Zhang Y, et al. Supra-nonlinear photorefractive response of single-walled carbon nanotube-and C 60-doped nematic liquid crystal. Appl Phys Lett. 2003;82:3587–3589.
- Zhao H, Lian C, Huang F, et al. Impact of grating spacing and electric field on real time updatable holographic recording in nanoscale ZnSe film assisted liquid crystal cells. Appl Phys Lett. 2012;101(21):211118.
- Xu MY, Liu YK, Xiang Y, et al. A fast light-induced grating in bent-core nematic liquid crystals with in-plane switching. Appl Phys Lett. 2013;103:083507.