[1] Cakmakci O, Rolland J. Head-worn displays: a review[J]. Journal of Display Technology, 2, 199-216(2006).
[2] Gao Y, Liu Y, Cheng D W et al. A review on development of head mounted display[J]. Journal of Computer-Aided Design & Computer Graphics, 28, 896-904(2016).
[3] Liang C Y. Research on key technology of laser projection display optical system Changchun: Changchun Institute of Optics, Fine Mechanics and Physics,[D]. University of Chinese Academy of Science(2017).
[4] Liang J Q. Research advances in micro-LED display devices[J]. OME Information, 27, 21-27(2010).
[8] Webb R H, Hughes G W, Pomerantzeff O. Flying spot TV ophthalmoscope[J]. Applied Optics, 19, 2991-2997(1980).
[10] Ashizaki K, Yamamoto M, Miyaoka S et al. -03-14(1991).
[12] Li X, Hao L, Liu W Q et al. Speckle reduction in laser display[J]. Chinese Journal of Liquid Crystals and Displays, 22, 320-324(2007).
[13] Hu X R, Liu Y, Wang J et al. Current progress in head-mounted display based on retinal scanning[J]. Infrared and Laser Engineering, 43, 871-878(2014).
[14] Mateus C F R, Huang M C Y, Deng Y et al. Ultrabroadband mirror using low-index cladded subwavelength grating[J]. IEEE Photonics Technology Letters, 16, 518-520(2004).
[15] Wall R A, Vallius T. -10-19[P]. Juhola M. Waveguide-based displays with exit pupil expander: US2017299860 .(2017).
[16] Tang H C, Tsai T H. -11-04[P]. Chou M T. Image optical lens system: US8878975 .(2014).
[18] Li X T, Cen Z F[M]. Geometrical optics·aberration·optical design, 260-263(2003).