Full-Color Holographic Optical Elements for Augmented Reality Display
Holographic optical element is widely developed in augmented reality, virtual reality, and three-dimensional display application. Especially, the full-color HOE has been studied for the wearable device in these days. In this chapter, the basic theories and the specific analysis for the full-color holographic optical element are explained. It also explores the Bragg angle shift phenomenon caused by shrinkage of the recording materials. The full-color holographic optical element with enhanced diffraction efficiencies using the optimum recording intensities for each wavelength is presented. The fabricated full-color holographic optical element can be applied in augmented reality application. In addition, we reviewed the waveguide head-mounted display system using full-color holographic optical element.
PDF] Full-Color Holographic Optical Elements for Augmented Reality Display
PDF] Full-color lens-array holographic optical element for three-dimensional optical see-through augmented reality.
Frontiers A Study on Augmented 3D Display Optimization Based on Holographic Optical Element for High Depth and Magnified Image
Ceres - Ceres Holographics Debuts Full-Color Automotive Holographic Transparent Display System Designed with TI DLP® technology
Inhibition period according to each wavelength.
Design of an off-axis near-eye AR display system based on a full-color freeform holographic optical element
Researching Augmented Reality Technology Based on Micro- and Nano-Optical Elements
Toward the next-generation VR/AR optics: a review of holographic near-eye displays from a human-centric perspective. - Abstract - Europe PMC
View of Inverse-Directed Propagation-Based Hexagonal Hogel Sampling for Holographic Stereogram Printing System
Simply structured full-color holographic three-dimensional display using angular-compensating holographic optical element - ScienceDirect
PDF] Full Color Holographic Optical Element Fabrication for Waveguide-type Head Mounted Display Using Photopolymer
View of Inverse-Directed Propagation-Based Hexagonal Hogel Sampling for Holographic Stereogram Printing System
