现代信息科技2025,Vol.9Issue(13):30-34,5.DOI:10.19850/j.cnki.2096-4706.2025.13.007
基于ZEMAX的增强现实系统全息光波导设计
Design of Holographic Optical Waveguide for Augmented Reality Systems Based on ZEMAX
摘要
Abstract
The holographic optical waveguide possesses distinct advantages such as compact volume,excellent display performance,and low manufacturing costs,making it one of the most ideal optical solutions for Augmented Reality(AR)systems at present.As AR technology continues to advance rapidly,achieving a balance between volume,display performance,and cost has become a critical challenge.This paper systematically establishes a holographic optical waveguide optical system model for AR applications based on ZEMAX optical simulation software.Through detailed simulations and analysis of the light propagation process within the waveguide,combined with image quality evaluations of the system based on simulation results,the study conducts targeted optimizations of key structural parameters.Ultimately,the research successfully designs and validates a high-performance AR holographic optical waveguide with an entrance pupil diameter of 4.0 mm,a Field of View(FOV)of 16°,and a waveguide thickness of less than 6 mm.This achievement not only provides significant references for the lightweight and high-performance development of AR devices but also lays the foundation for further optimization and practical applications of holographic optical waveguides.关键词
AR技术/光学设计/ZEMAX/光波导方案/非球面Key words
Augmented Reality technology/optical design/ZEMAX/optical waveguide scheme/aspheric surface分类
信息技术与安全科学引用本文复制引用
邝志辉,林楚锋,谢彬,黄晓园..基于ZEMAX的增强现实系统全息光波导设计[J].现代信息科技,2025,9(13):30-34,5.基金项目
教育部高等教育司产学合作协同育人项目(231002116092753,230703584255136) (231002116092753,230703584255136)
东莞市社会发展科技项目(20221800901472,20231800940532) (20221800901472,20231800940532)
东莞理工学院校级质量工程项目(202102072,202302060,2024020105) (202102072,202302060,2024020105)
东莞理工学院大学生创新创业训练计划项目(202311819010,S202311819065,S202311819066,202411819161,202511819008) (202311819010,S202311819065,S202311819066,202411819161,202511819008)
