Shin Seung-Ho, Javidi Bahram
Kangwon National University, Department of Physics, Chunchon, Korea.
Appl Opt. 2002 May 10;41(14):2644-9. doi: 10.1364/ao.41.002644.
We propose a method to implement a speckle-reduced coherent three-dimensional (3D) display system by a combination of integral imaging and photorefractive volume holographic storage. The 3D real object is imaged through the microlens array and stored in the photorefractive crystal. During the reconstruction process a phase conjugate reading beam is used to minimize aberration, and a rotating diffuser located on the imaging plane of the lens array is employed to reduce the speckle noise. The speckle-reduced 3D image with a wide viewing angle can be reconstructed by use of the proposed system. Experimental results are presented and optical parameters of the proposed system are discussed in detail.
我们提出了一种通过积分成像和光折变体全息存储相结合来实现散斑减少的相干三维(3D)显示系统的方法。三维真实物体通过微透镜阵列成像并存储在光折变晶体中。在重建过程中,使用相位共轭读取光束来最小化像差,并在透镜阵列的成像平面上使用旋转漫射器来减少散斑噪声。利用所提出的系统可以重建具有宽视角的散斑减少的3D图像。给出了实验结果,并详细讨论了所提出系统的光学参数。