Ultracompact and high-efficiency liquid-crystal-on-silicon light engines for augmented reality glasses

Date：May 2024

Teams:University of Central Florida；Meta

Writers:Zhenyi Luo¹,  Yuqiang Ding¹,  Fenglin Peng²,  Guohua Wei²,  Yun Wang²,  Shin-Tson Wu

PDF:Ultracompact and high-efficiency liquid-crystal-on-silicon light engines for augmented reality glasses

Abstract

In lightweight augmented reality (AR) glasses, the light engines must be very compact while keeping a high optical efficiency to enable longtime comfortable wearing and high ambient contrast ratio. “Liquid-crystal-on-silicon (LCoS) or micro-LED, who wins?” is recently a heated debate question. Conventional LCoS system is facing tremendous challenges due to its bulky illumination systems; it often incorporates a bulky polarizing beam splitter (PBS) cube. To minimize the formfactor of an LCoS system, here we demonstrate an ultracompact illumination system consisting of an in-coupling prism, and a light guide plate with multiple parallelepiped extraction prisms. The overall module volume including the illumination optics and an LCoS panel (4.4-μm pixel pitch and 1024×1024 resolution elements), but excluding the projection optics, is merely 0.25 cc (cm³). Yet, our system exhibits an excellent illuminance uniformity and an impressive optical efficiency (36%–41% for a polarized input light). Such an ultracompact and high-efficiency LCoS illumination system is expected to revolutionize the next-generation AR glasses.