Volume holographic waveguide display with large field of view using a Au-NPs dispersed acrylate-based photopolymer

被引：31

作者：

Shen, Zhongwen ^{[1
]}

Zhang, Yuning ^{[1
]}

Liu, Ao ^{[1
]}

Weng, Yishi ^{[1
]}

Li, Xiaohua ^{[1
]}

机构：

[1] Southeast Univ, Sch Elect & Engn, Joint Int Res Lab Informat Display & Visualizat, Nanjing 210018, Peoples R China

来源：

OPTICAL MATERIALS EXPRESS | 2020年 / 10卷 / 02期

基金：

国家重点研发计划;

关键词：

HIGH-EFFICIENCY; GRATINGS; ELEMENTS;

D O I：

10.1364/OME.380826

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

We present a volume holographic waveguide display by dispersing gold nanoparticles (Au-NPs) in acrylate-based photopolymer. The diffractive bandwidth and diffraction efficiency (DE) of the volume holographic grating (VHG) applied for waveguide displays are characterized and analyzed through both the simulations and experiments. The results show that the wavelength bandwidth of the VHG can be enlarged to 30 nm with a corresponding refractive index modulation (RIM) increased to around 0.08 by dispersing the Au-NPs with a concentration of 0.012 g/ml into the acrylate-based photopolymer. Finally, the green monochromatic waveguide display system with 30 degrees horizontal field of view (FOV) is realized. (C) 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

引用

页码：312 / 322

页数：11

共 11 条

[1] Holographic waveguide display with large field of view based on volume holographic grating
Wang, Chuang
Zhang, Yuning
Weng, Yishi
Shen, Zhongwen
Wei, Ran
Gu, Yuchen
Zhang, Lixuan
JOURNAL OF THE SOCIETY FOR INFORMATION DISPLAY, 2023, 31 (06) : 433 - 442
[2] Holographic Recording Performance of Acrylate-Based Photopolymer under Different Preparation Conditions for Waveguide Display
Shen, Zhongwen
Weng, Yishi
Zhang, Yuning
Wang, Chuang
Liu, Ao
Li, Xiaohua
POLYMERS, 2021, 13 (06)
[3] Holographic Waveguide Display With Large Field of View and High Light Efficiency Based on Polarized Volume Holographic Grating
Gu, Yuchen
Weng, Yishi
Wei, Ran
Shen, Zhongwen
Wang, Chuang
Zhang, LiXuan
Zhang, Yuning
IEEE PHOTONICS JOURNAL, 2022, 14 (01):
[4] Full-color VHG holographic waveguide display based on wide-band sensitive acrylate photopolymer
Shen, Zhongwen
Su, Xin
Tian, Chuang
Jiang, Yi
Yang, Yan
HOLOGRAPHY, DIFFRACTIVE OPTICS, AND APPLICATIONS XII, 2022, 12318
[5] Holographic display method with a large field of view based on a holographic functional screen
Liu, Su-Juan
Wang, Di
Zhai, Feng-Xiao
Liu, Nan-Nan
Hao, Qi-Yun
APPLIED OPTICS, 2020, 59 (20) : 5983 - 5988
[6] Portable waveguide display system with a large field of view by integrating freeform elements and volume holograms
Han, Jian
Liu, Juan
Yao, Xincheng
Wang, Yongtian
OPTICS EXPRESS, 2015, 23 (03): : 3534 - 3549
[7] Large field-of-view holographic Maxwellian display based on spherical crown diffraction
Zhang, Weijia
Wang, Jun
Tan, Chao
Wu, Yang
Zhang, Yuqi
Chen, Ni
OPTICS EXPRESS, 2023, 31 (14) : 22660 - 22670
[8] Large field-of-view holographic display method with speckle noise suppression based on time multiplexing
Liu, Su-Juan
Ma, Ning-Tao
Zhai, Feng-Xiao
Liu, Nan-Nan
Li, Ping-Ping
Hao, Yun-Qi
Wang, Di
JOURNAL OF THE SOCIETY FOR INFORMATION DISPLAY, 2021, 29 (10) : 758 - 767
[9] Ultra-lightweight and wide field of view augmented reality virtual retina display based on optical fiber projector and volume holographic lens
陈志东
桑新柱
李会
王媛
赵林敏
Chinese Optics Letters, 2019, 17 (09) : 42 - 46
[10] Ultra-lightweight and wide field of view augmented reality virtual retina display based on optical fiber projector and volume holographic lens
Chen, Zhidong
Sang, Xinzhu
Li, Hui
Wang, Yuan
Zhao, Linmin
CHINESE OPTICS LETTERS, 2019, 17 (09)

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