全息术
增强现实
全息显示器
炸薯条
多路复用
波前
计算机科学
光学
电子工程
光电子学
计算机硬件
材料科学
物理
电信
工程类
人工智能
作者
Yangyang Shi,Chenjie Dai,Shuai Wan,Zejing Wang,Xinglong Li,Zhongyang Li
出处
期刊:ACS Photonics
[American Chemical Society]
日期:2024-04-25
卷期号:11 (5): 2123-2130
被引量:30
标识
DOI:10.1021/acsphotonics.4c00402
摘要
Waveguide-integrated on-chip meta-optics exhibit a promising platform for achieving high-performance and compact optical display devices. However, heading toward advanced wearable smart display technology, its broad implementation is critically restricted by the lack of practical active tuning capability. Despite previous endeavors, on-chip meta-optics still face crucial challenges in achieving any arbitrary vectorial wavefront with dynamic switchable ability. Here, a practical liquid crystal (LC)-driven on-chip metasurface integrated on a waveguide is proposed and demonstrated for dynamic vectorial augmented reality (AR) meta-holograms. By engineering the on-chip meta-diatoms at the nanoscale, the simultaneous modulation of arbitrary polarization and phase of the out-coupling lightwave can be achieved for up to nine-channel fully polarized vectorial meta-holograms. As a proof of concept, in combination with an electrical-driven LC tuning platform, integrated on-chip meta-optics can actively switch holographic images floating in the actual-world scene in real-time as dynamic AR meta-displays. Moreover, owing to the on-chip optical propagation scheme, the projected AR holograms are uniquely free from zero-order diffraction interference. It is envisioned that such on-chip dynamic vectorial meta-displays integrated with the LC platform allow for miniaturized integration and promise potential applications in advanced intelligent dynamic displays, multiplexing information storage/encryption, and next-generation wearable AR displays.
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