Field lens multiplexing in holographic 3D displays by using Bragg diffraction based volume gratings

G. Fütterer
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Abstract

Applications, which can profit from holographic 3D displays, are the visualization of 3D data, computer-integrated manufacturing, 3D teleconferencing and mobile infotainment. However, one problem of holographic 3D displays, which are e.g. based on space bandwidth limited reconstruction of wave segments, is to realize a small form factor. Another problem is to provide a reasonable large volume for the user placement, which means to provide an acceptable freedom of movement. Both problems should be solved without decreasing the image quality of virtual and real object points, which are generated within the 3D display volume. A diffractive optical design using thick hologram gratings, which can be referred to as Bragg diffraction based volume gratings, can provide a small form factor and high definition natural viewing experience of 3D objects. A large collimated wave can be provided by an anamorphic backlight unit. The complex valued spatial light modulator add local curvatures to the wave field he is illuminated with. The modulated wave field is focused onto to the user plane by using a volume grating based field lens. Active type liquid crystal gratings provide 1D fine tracking of approximately ± 8° deg. Diffractive multiplex has to be implemented for each color and for a set of focus functions providing coarse tracking. Boundary conditions of the diffractive multiplexing are explained. This is done in regards to the display layout and by using the coupled wave theory (CWT). Aspects of diffractive cross talk and its suppression will be discussed including longitudinal apodized volume gratings.
基于Bragg衍射的体光栅全息三维显示器的场透镜复用
可以从全息3D显示中获利的应用包括3D数据的可视化、计算机集成制造、3D远程会议和移动信息娱乐。然而,基于空间带宽限制的波段重建的全息三维显示的一个问题是如何实现小尺寸。另一个问题是为用户放置提供一个合理的大体积,这意味着提供一个可接受的移动自由。这两个问题都需要在不降低三维显示体内生成的虚拟和真实物体点的图像质量的情况下得到解决。采用厚全息图光栅的衍射光学设计,可称为基于Bragg衍射的体光栅,可以提供小尺寸和高清晰度的3D物体自然观看体验。一个大的准直波可以由变形背光单元提供。复值空间光调制器在被照射的波场中加入局部曲率。利用基于体光栅的场透镜将调制波场聚焦到用户平面上。主动型液晶光栅提供大约±8°的1D精细跟踪。必须为每种颜色和一组提供粗跟踪的聚焦功能实现衍射复用。解释了衍射复用的边界条件。这是通过使用耦合波理论(CWT)在显示布局方面完成的。将讨论衍射串扰及其抑制的各个方面,包括纵向apozed体积光栅。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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