Large viewing angle holographic 3D display system based on maximum diffraction modulation
PubDate: July 2023
Teams: Beihang University;Taiyuan University of Technology
Writers: Di Wang 1 , Nan-Nan Li 1 , Yi-Long Li 1 , Yi-Wei Zheng 1 , Zhong-Quan Nie 2 , Zhao-Song Li 1 , Fan Chu 1 , * , , Qiong-Hua Wang 1 , * ,
PDF: Large viewing angle holographic 3D display system based on maximum diffraction modulation
Abstract
An ideal holographic 3D display should have the characteristics of large viewing angle, full color, and low speckle noise. However, the viewing angle of the holographic 3D display is usually limited by existing strategies, which vastly hinders its extensive application. In this paper, a large viewing angle holographic 3D display system based on maximum diffraction modulation is proposed. The core of the proposed system comprises the spatial light modulators (SLMs) and liquid crystal grating. We also present a new feasible scheme for the realization of large viewing angle holographic 3D display. This is achieved by considering the maximum diffraction angle of SLM as the limited diffraction modulation range of each image point. By doing so, we could not only give access to the maximum hologram size of the object, but also tune the reconstructed image of secondary diffraction by using a self-engineered liquid crystal grating. More importantly, the proposed maximum diffraction modulation scheme enables the viewing angle of the proposed system to be enlarged to 73.4°. The proposed system has huge application potential in the fields such as education, culture, and entertainment.