Cost-efficient polymer flat lens for chromatic aberration correction in virtual reality displays

Tao Zhan; Junyu Zou; Jianghao Xiong; Xiaomin Liu; Hao Chen; Sheng Liu; Yajie Dong; Shin Tson Wu

doi:10.1002/sdtp.13934

Cost-efficient polymer flat lens for chromatic aberration correction in virtual reality displays

Tao Zhan, Junyu Zou, Jianghao Xiong, Xiaomin Liu, Hao Chen, Sheng Liu, Yajie Dong, Shin Tson Wu

Research output: Contribution to journal › Conference article › peer-review

1 Citation (Scopus)

Abstract

An optical chromatic aberration correction method for virtual reality displays is demonstrated. With a cost-efficient ultra-broadband liquid crystal flat lens based on the Pancharatnam-Berry phase, the proposed method can reduce the lateral color breakup by more than 10 times. Both simulation and experimental results are presented and discussed.

Original language	English
Pages (from-to)	579-582
Number of pages	4
Journal	Digest of Technical Papers - SID International Symposium
Volume	51
Issue number	1
DOIs	https://doi.org/10.1002/sdtp.13934
Publication status	Published - 2020
Externally published	Yes
Event	57th SID International Symposium, Seminar and Exhibition, Display Week, 2020 - Virtual, Online Duration: 3 Aug 2020 → 7 Aug 2020

Keywords

Chromatic aberration
Liquid crystal device
Near-eye display
Pancharatnam-berry phase
Virtual reality

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10.1002/sdtp.13934

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Zhan, T., Zou, J., Xiong, J., Liu, X., Chen, H., Liu, S., Dong, Y., & Wu, S. T. (2020). Cost-efficient polymer flat lens for chromatic aberration correction in virtual reality displays. Digest of Technical Papers - SID International Symposium, 51(1), 579-582. https://doi.org/10.1002/sdtp.13934

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abstract = "An optical chromatic aberration correction method for virtual reality displays is demonstrated. With a cost-efficient ultra-broadband liquid crystal flat lens based on the Pancharatnam-Berry phase, the proposed method can reduce the lateral color breakup by more than 10 times. Both simulation and experimental results are presented and discussed.",

keywords = "Chromatic aberration, Liquid crystal device, Near-eye display, Pancharatnam-berry phase, Virtual reality",

author = "Tao Zhan and Junyu Zou and Jianghao Xiong and Xiaomin Liu and Hao Chen and Sheng Liu and Yajie Dong and Wu, {Shin Tson}",

note = "Publisher Copyright: {\textcopyright} 2020 SID.; 57th SID International Symposium, Seminar and Exhibition, Display Week, 2020 ; Conference date: 03-08-2020 Through 07-08-2020",

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doi = "10.1002/sdtp.13934",

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T1 - Cost-efficient polymer flat lens for chromatic aberration correction in virtual reality displays

AU - Zhan, Tao

AU - Zou, Junyu

AU - Xiong, Jianghao

AU - Liu, Xiaomin

AU - Chen, Hao

AU - Liu, Sheng

AU - Dong, Yajie

AU - Wu, Shin Tson

PY - 2020

Y1 - 2020

N2 - An optical chromatic aberration correction method for virtual reality displays is demonstrated. With a cost-efficient ultra-broadband liquid crystal flat lens based on the Pancharatnam-Berry phase, the proposed method can reduce the lateral color breakup by more than 10 times. Both simulation and experimental results are presented and discussed.

AB - An optical chromatic aberration correction method for virtual reality displays is demonstrated. With a cost-efficient ultra-broadband liquid crystal flat lens based on the Pancharatnam-Berry phase, the proposed method can reduce the lateral color breakup by more than 10 times. Both simulation and experimental results are presented and discussed.

KW - Chromatic aberration

KW - Liquid crystal device

KW - Near-eye display

KW - Pancharatnam-berry phase

KW - Virtual reality

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U2 - 10.1002/sdtp.13934

DO - 10.1002/sdtp.13934

M3 - Conference article

AN - SCOPUS:85094203357

SN - 0097-966X

VL - 51

SP - 579

EP - 582

JO - Digest of Technical Papers - SID International Symposium

JF - Digest of Technical Papers - SID International Symposium

IS - 1

T2 - 57th SID International Symposium, Seminar and Exhibition, Display Week, 2020

Y2 - 3 August 2020 through 7 August 2020

ER -

Cost-efficient polymer flat lens for chromatic aberration correction in virtual reality displays

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