本論文主要在探討不同全像記錄系統之特性與記錄參數，以期應用於全像藝術創作上。首先介紹幾種不同的全像記錄系統如穿透式、反射式、Dneisyuk反射式及彩虹全像，並由理論分析全像片以不同的讀取條件下所重建之物體的位置、大小等特性。接著我們建立幾種全像記錄系統，並製作出全像片，再以不同的讀取條件重建之，與理論分析相對照。此外，我們亦展示以市售的液晶空間光學調制器為輸入元件，利用角度多工技術，拍攝多張圖於一張全像片上之光學實驗結果。最後，我們以市售幾種不同的發光二極體( LED )為重建光源，探討其重建特性。

The main goal of this thesis is to study the optical parameters of different holographic recording systems and its application on art holography. First, we introduced several different types of holographic recording systems, such as transmission type, reflection type, Denisyuk hologram, and rainbow hologram. Then, we analyzed the optical properties of the transmission hologram with different reconstructed conditions. Also, we set up the holographic recording system for developing hologram and reconstructed with different reading conditions. The experimental results consist with the theoretic analysis. In addition, by using Liquid Crystal Special Light Modulator ( LC-SLM ) , we recorded several images into one hologram with angular multiplexing technique. Finally, we reconstructed hologram using different commercial LED for reconstructing light source.

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