TY - GEN
T1 - Liquid-crystal polarization volume gratings for near-eye displays
AU - Yin, Kun
AU - Zhan, Tao
AU - Xiong, Jianghao
AU - He, Ziqian
AU - Li, Kun
AU - Wu, Shin Tson
N1 - Publisher Copyright:
© 2021 SPIE.
PY - 2021
Y1 - 2021
N2 - Liquid crystal-based reflective polarization volume gratings (PVGs), also known as a linear Bragg-Berry phase optical element or a member of volume Bragg gratings (VBGs), is a functional planar structure with a patterned orientation of optical axis. Due to the strong polarization selectivity, nearly 100% diffraction efficiency, large diffraction angle, and simple fabrication process, PVGs have found potential applications in novel photonic devices and emerging near-eye displays. In this work, we start from the operation principles and liquid crystal configurations to discuss the optical properties, including diffraction efficiency, angular and spectral response, and polarization state of the diffracted light. Specifically, we emphasize promising applications of PVGs for near-eye displays and novel photonic devices. Through analyzing the functionalities of PVGs with simulations, PVG-based novel devices are proposed. We further develop polarization volume lenses (PVLs) with high diffraction efficiency, low f/#, and large diffraction angles. Previously reported planar lenses are of thin form factor but with on-axis imaging and large f/#. By patterning PVGs with parabolic phase, the obtained PVLs exhibit a small f/#, high diffraction efficiency, and large off-axis diffraction angle. The PVLs offer a new design for near-eye systems, especially for augmented reality (AR) displays. Based on PVLs, we propose a new multi-focal-plane AR system with a polarization multiplexing method to eliminate the vergence-accommodation conflict.
AB - Liquid crystal-based reflective polarization volume gratings (PVGs), also known as a linear Bragg-Berry phase optical element or a member of volume Bragg gratings (VBGs), is a functional planar structure with a patterned orientation of optical axis. Due to the strong polarization selectivity, nearly 100% diffraction efficiency, large diffraction angle, and simple fabrication process, PVGs have found potential applications in novel photonic devices and emerging near-eye displays. In this work, we start from the operation principles and liquid crystal configurations to discuss the optical properties, including diffraction efficiency, angular and spectral response, and polarization state of the diffracted light. Specifically, we emphasize promising applications of PVGs for near-eye displays and novel photonic devices. Through analyzing the functionalities of PVGs with simulations, PVG-based novel devices are proposed. We further develop polarization volume lenses (PVLs) with high diffraction efficiency, low f/#, and large diffraction angles. Previously reported planar lenses are of thin form factor but with on-axis imaging and large f/#. By patterning PVGs with parabolic phase, the obtained PVLs exhibit a small f/#, high diffraction efficiency, and large off-axis diffraction angle. The PVLs offer a new design for near-eye systems, especially for augmented reality (AR) displays. Based on PVLs, we propose a new multi-focal-plane AR system with a polarization multiplexing method to eliminate the vergence-accommodation conflict.
KW - augmented reality displays
KW - liquid crystals
KW - polarization volume gratings
UR - https://www.scopus.com/pages/publications/85105910704
U2 - 10.1117/12.2577992
DO - 10.1117/12.2577992
M3 - Conference contribution
AN - SCOPUS:85105910704
T3 - Proceedings of SPIE - The International Society for Optical Engineering
BT - Advances in Display Technologies XI
A2 - Lee, Jiun-Haw
A2 - Wang, Qiong-Hua
A2 - Yoon, Tae-Hoon
PB - SPIE
T2 - Advances in Display Technologies XI 2021
Y2 - 6 March 2021 through 11 March 2021
ER -