[1] J XIONG, E L HSIANG, Z HE et al. Augmented reality and virtual reality displays: emerging technologies and future perspectives. Light:Science & Applications, 10, 216(2021).

[2] Xinjun YANG, Yan XIANG, Biao ZHU et al. Novel optical system design method for smart glasses. Journal of Applied Optics, 39, 815-820(2018).

[3] Y H LEE, T ZHAN, S T WU. Prospects and challenges in augmented reality displays. Virtual Real. Intell. Hardw, 1, 10-20(2019).

[4] T RASMUSSEN. Overview of high-efficiency transmission gratings for molecular spectroscopy. Spectroscopy, 29, 32-39(2014).

[5] D CHENG, Y WANG, C XU et al. Design of an ultra-thin near-eye display with geometrical waveguide and freeform optics. Optics Express, 22, 20705-20719(2014).

[6] T YANG, G F JIN, J ZHU. Automated design of freeform imaging systems. Light:Science & Applications, 6, 113-122(2017).

[7] G LI, D LEE, Y JEONG et al. Holographic display for see-through augmented reality using mirror-lens holographic optical element. Optics Letters, 41, 2486-2489(2016).

[8] A FROMMER. 11-3: Invited paper: lumus optical technology for AR. Sid Symposium Digest of Technical Papers, 48, 134-135(2017).

[9] R ATAC, M EDEL. Binocular scorpion helmet-mounted display. SPIE, 8041, 108-112(2011).

[10] H MUKAWA, K AKUTSU, I MATSUMURA et al. A full-color eyewear display using planar waveguides with reflection volume holograms. Journal of The Society for Information Display, 17, 185-193(2009).

[11] Fei ZENG, Xin ZHANG, Jianping ZHANG et al. Holographic waveguide head-mounted display system design based on prisms-grating structure. Acta Optica Sinica, 33, 114-119(2013).

[12] Yuting JIANG, Yi ZHANG, Yueqiang HU et al. Research progress of optical waveguide components in augmented reality near-eye display devices. Optics and Precision Engineering, 29, 28-44(2021).

[13] Runcang CAO. Design and optimization of surface relief grating waveguide AR system based on RCWA method(2021).

[14] Peipei YANG. Research on AR diffracted light waveguide based on femtosecond laser micro-nanolithography technology(2021).

[15] D CHENG, Q WANG, Y LIU et al. Design and manufacture AR head-mounted displays: a review and out-look. Light:Advanced Manufacturing, 2, 350-369(2021).

[16] M G MOHARAM, T K GAYLOR. Rigorous coupled-wave analysis of planar-grating diffraction. JOSA, 71, 811-818(1981).

[17] Wei CHEN, Sheng LIAO. Rigorous coupled-wave method for diffraction efficiency calculation of blazed gratings. Journal of Applied Optics, 30, 734-738(2009).

[18] Zaiyao SHI. Study on the diffraction characteristics of novel coupling grating applied on holographic waveguide(2018).

[19] Xinyu WEI. Design of diffractive optical waveguide near-eye display scheme(2021).

[20] C P CHAO, L T MI, W B ZHANG et al. Waveguide-based near-eye display with dual-channel exit pupil expander. Displays, 67, 101998-1-10(2021).