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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/75197


    Title: 基於數位光學相位共軛器浮空於多重鏡面之立體投影之研究;Study of 3D Projection Floating over Confetti-Like Quasi-Specular Surfaces Based on Digital Optical Phase Conjugator
    Authors: 陳宇恆;Chen, Yu-Heng
    Contributors: 光電科學與工程學系
    Keywords: 數位光學相位共軛器;自泵相位共軛器;立體投影;多重鏡面;數位全像;共軛聚焦;Digital optical phase conjugator;Self-pumped phase conjugator;3D projection;Confetti-like specular surface;Digital holography;Conjugate focusing;DOPC
    Date: 2017-07-31
    Issue Date: 2017-10-27 17:18:32 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 本論文藉小貓自泵相位共軛器應用於數位光學共軛器大幅提升系統對位精準度,利用其大角度容忍範圍、快速、穩定等天生優勢以及自發性產生自泵共軛光之特性達成像差補償的目的。憑藉以上優點,本團隊建構出一套高效能的數位光學共軛器。本論文將此數位光學相位共軛器搭配碎花狀鏡面材料發展出一套得以保存全光學資訊的全像立體投影系統,不但突破性地將數位光學相位共軛技術應用在立體投影,更建構出一套可分析多種系統參數對於共軛聚焦點行為分布的立體投影模型,相信此技術更對未來立體顯示領域擁有極大的助益。;In this paper, we demonstrate a Kitty self-pumped phase conjugate mirror (Kitty-SPPCM) applied to digital optical phase conjugator (DOPC). The inherent advantages of Kitty-SPPCM are high angular-tolerance, fast, stable, etc. The most crucial point is that Kitty-SPPCM is able to generate spontaneous conjugate beams, which can do systematic phase compensation. With the aid of the point, we invent a high-quality DOPC system. Using the DOPC system along with confetti-like quasi-specular surfaces, we invent a 3D holographic projection system which saves entire optical information. Furthermore, a model of the 3D projection system which is able to analyze multiple systematic parameters in order to observe the intensity distribution of the conjugate focal point is successfully built. We believe that the state-of-the-art 3D-projection system based on DOPC has great potential to the field of futuristic 3D projection.
    Appears in Collections:[Graduate Institute of Optics and Photonics] Electronic Thesis & Dissertation

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