杨鑫 Yang Xin scite author profile

A fast computer-generated holographic method with multiple projection images for a near-eye VR (Virtual Reality) and AR (Augmented Reality) 3D display is proposed. A 3D object located near the holographic plane is projected onto a projection plane to obtain a plurality of projected images with different angles. The hologram is calculated by superposition of projected images convolution with corresponding point spread functions (PSF). Holographic 3D display systems with LED as illumination, 4f optical filtering system and lens as eyepiece for near-eye VR display and holographic optical element (HOE) as combiner for near-eye AR display are designed and developed. The results show that the proposed calculation method is about 38 times faster than the conventional point cloud method and the display system is compact and flexible enough to produce speckle noise-free high-quality VR and AR 3D images with efficient focus and defocus capabilities.

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Method to eliminate pseudoscopic issue in an integral imaging 3D display by using a transmissive mirror device and light filter

Zhang

Deng

Hui

et al. 2020

Opt. Lett.

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We propose an optical method to eliminate pseudoscopic issue in the integral imaging three-dimensional (3D) display by using a transmissive mirror device (TMD) and a light filter. Object light rays passing through the TMD can form an undistorted and depth inverted real image. Therefore, the TMD can eliminate the pseudoscopic issue existing in the traditional integral imaging. However, two ghost images appeared in integral imaging using the TMD. After studying the causes of the ghost images, a light filter is designed and fabricated to eliminate the ghost images. Integral imaging using TMD is developed, and it presents a high quality 3D image without a pseudoscopic issue.

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White light diffraction phase microscopy with slightly off-axis blind two-step phase-shifting

Zhang

Xin

et al. 2020

Optics Communications

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Phase-only color rainbow holographic near-eye display

Xin¹,

Jiao

Song³

et al. 2021

Opt. Lett.

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Color rainbow holography can realize color holographic 3D display without speckle noise under white light illumination. However, traditional color rainbow holograms used for high-resolution static color 3D display or near-eye color display are amplitude-type, resulting in low diffraction efficiency due to the presence of conjugate light. In this Letter, a phase-only color rainbow holographic near-eye display is demonstrated. The calculation of a phase-only color rainbow hologram is realized by combining a band-limited diffraction and a bi-directional error diffusion algorithm with high-frequency blazed gratings coded to control longitudinal dispersion. When the wavelength of illumination light is deviated from the designated wavelength of the hologram, only a certain wavefront aberration is caused, but there is no conjugate light. The phase-only color rainbow holographic near-eye display of both a 2D color image and a 3D scene are implemented by optical experiments. It has potential applications in head-mounted 3D augmented reality displays without vergence-accommodation conflict.

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杨鑫 Yang Xin

Full-color computer-generated holographic near-eye display based on white light illumination

A Fast Computer-Generated Holographic Method for VR and AR Near-Eye 3D Display

Method to eliminate pseudoscopic issue in an integral imaging 3D display by using a transmissive mirror device and light filter

White light diffraction phase microscopy with slightly off-axis blind two-step phase-shifting

Phase-only color rainbow holographic near-eye display

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