瞄准具的核心部件是由一块无透镜傅里叶变换位相全息图和一块全息光束变换器组成的全息光学元件。
The critical part of this sight is a holographic optical elements combined with a lensless Fourier transform hologram and a holographic beam transformer.
多个微孔排列组成计算全息图的单元,携带了物光波的振幅和位相信息。
The CGH cells formed by micro-voids carried the information of the object wave amplitude and the phase.
本文提出采用对二个物体进行位相编码的迂回位相计算全息图对该两物体实现二重位相匹配滤波。
In this paper I have shown that the double phase-only matched filtering can be realized by a computer generated hologram of detour phase with phase coding for two objects.
与传统的计算全息图不同,该方法将全息图平面的纯位相信息加载到空间光调制器上来重建三维漫射体,而没有引入参考光波。
Different from conventional CGHs, the pure-phase information on the hologram plane is loaded on the SLM to reconstruct the 3d diffusive objects without considering the reference wave.
与传统的计算全息图不同,该方法将全息图平面的纯位相信息加载到空间光调制器上来重建三维漫射体,而没有引入参考光波。
Different from conventional CGHs, the pure-phase information on the hologram plane is loaded on the SLM to reconstruct the 3d diffusive objects without considering the reference wave.
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