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Laser & Optoelectronics Progress, Volume. 59, Issue 20, 2011012(2022)

Augmented Reality Near-Eye Display System Based on Cylindrical Holographic Waveguide

Yu Mei1,2, Fei Peng2, Ming Sun1, Huadong Zheng1, Yingjie Yu1, and Xinxing Xia1,2、*
Author Affiliations
  • 1School of Mechatronic Engineering and Automation, Shanghai University, Shanghai 200444, China
  • 2Science and Technology on Electro-Optic Control Laboratory, Luoyang 471000, Henan, China
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    Holographic waveguide display system. (a) Basic configuration of planar holographic waveguide display system; (b) basic structure of cylindrical holographic waveguide display system

    Fig. 1. Holographic waveguide display system. (a) Basic configuration of planar holographic waveguide display system; (b) basic structure of cylindrical holographic waveguide display system

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    Diagram of the light propagation inside the cylindrical holographic waveguide with different FOVs

    Fig. 2. Diagram of the light propagation inside the cylindrical holographic waveguide with different FOVs

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    Diagram of the near-eye display with the cylindrical holographic waveguide. (a) Schematic of wearing effect; (b) structure of holographic waveguide near-eye display system

    Fig. 3. Diagram of the near-eye display with the cylindrical holographic waveguide. (a) Schematic of wearing effect; (b) structure of holographic waveguide near-eye display system

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    Optical path of exposure system fabricated by the holographic waveguide optical element

    Fig. 4. Optical path of exposure system fabricated by the holographic waveguide optical element

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    Fabricated cylindrical holographic waveguide

    Fig. 5. Fabricated cylindrical holographic waveguide

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    Implemented near-eye display prototype with cylindrical holographic waveguide

    Fig. 6. Implemented near-eye display prototype with cylindrical holographic waveguide

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    Micro-display image source used by the system. (a) Green high-light OLED image source; (b) corresponding spectral distribution

    Fig. 7. Micro-display image source used by the system. (a) Green high-light OLED image source; (b) corresponding spectral distribution

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    Verification experiment of the proposed near-eye display system. (a) Displayed source image; (b) captured photo in bright environment; (c) captured photo in dark environment

    Fig. 8. Verification experiment of the proposed near-eye display system. (a) Displayed source image; (b) captured photo in bright environment; (c) captured photo in dark environment

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    Yu Mei, Fei Peng, Ming Sun, Huadong Zheng, Yingjie Yu, Xinxing Xia. Augmented Reality Near-Eye Display System Based on Cylindrical Holographic Waveguide[J]. Laser & Optoelectronics Progress, 2022, 59(20): 2011012

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    Paper Information

    Category: Imaging Systems

    Received: Aug. 23, 2022

    Accepted: Sep. 16, 2022

    Published Online: Oct. 13, 2022

    The Author Email: Xia Xinxing (lygxia@gmail.com)

    DOI:10.3788/LOP202259.2011012

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology