We fabricated a large computer-generated holography on a concave lens surface to test the convex secondary mirrors surface.
在凹透镜表面上制作出了用于凸非球面检测的曲面全息图。
We can model a holographic interference scene through programming, then dispose a 3d model in it to compute a frame of computer-generated holography.
通过计算机构造全息干涉场景,将所要显示的3d模型置放其中,对其进行全息成象,从而获得每帧的二元全息图。
Computer-generated holography is a hot point study in recent years, which combines the advanced computer technology and optical holography technology together.
计算机生成全息图技术将计算机技术与全息技术结合在一起,是近年来研究的热点。
Firstly, the coding principle of computer-generated holography (CGH) in applications of 3d display and arithmetic of the digital reconstruction of holograms is introduced briefly.
首先简要介绍了在三维显示的应用中计算全息的编码原理,以及全息图数字化再现的几种算法。
The realization of atom beam holography by computer generated hologram have been presented in this paper, which can decrease the difficulty of the atom holography.
提出用计算全息技术来实现原子束全息成像,降低了原子束全息的实现难度。
The realization of atom beam holography by computer generated hologram have been presented in this paper, which can decrease the difficulty of the atom holography.
提出用计算全息技术来实现原子束全息成像,降低了原子束全息的实现难度。
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