Litcius/Paper detail

Design method of an ultra-thin two-dimensional geometrical waveguide near-eye display based on forward-ray-tracing and maximum FOV analysis

Ningye Ruan, Feng Shi, Ye Tian, Xing Peng, Wanli Zhang, Shuo Qiao

2023Optics Express12 citationsDOIOpen Access PDF

Abstract

A two-dimensional geometrical waveguide enables ultra-thin augmented reality (AR) near-eye display (NED) with wide field of view (FOV) and large exit-pupil diameter (EPD). A conventional design method can efficiently design waveguides that meet the requirements, but is unable to fully utilize the potential display performance of the waveguide. A forward-ray-tracing waveguide design method with maximum FOV analysis is proposed, enabling two-dimensional geometrical waveguides to achieve their maximum FOV while maintaining minimum dimensions. Finally, the designed stray-light-suppressed waveguide NED has a thickness of 1.7 mm, a FOV of 50.00°H × 29.92°V, and an eye-box of 12 mm × 12 mm at an eye-relief of 18 mm.

Topics & Concepts

OpticsRay tracing (physics)WaveguideStray lightField of viewExit pupilEntrance pupilPhysicsComputer scienceMaterials sciencePupilAdvanced Optical Imaging TechnologiesVirtual Reality Applications and ImpactsAugmented Reality Applications