平面积分自由空间光学衍射光学元件的数值优化

Signal Recovery and Synthesis Pub Date : 1900-01-01 DOI:10.1364/srs.1998.swb.3

M. Testorf, M. Fiddy

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引用次数: 0

摘要

平面集成自由空间光学1,2是将大型光学系统集成到平面平行几何的厚透明基板上的一种很有前途的方案。对于这种方法，所有光学元件都位于衬底表面(图1)。光信号沿着折叠的光轴传播。整个光学系统的所有元件形成一个二维结构。这使得平面集成光学与微电子兼容，并且允许，例如，通过使用标准光刻技术将系统制造为单个衍射光学表面浮雕。

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Numerical optimization of diffractive optical elements for planar-integrated free-space optics

Planar-integrated free-space optics1,2 is a promising scheme to integrate large scale optical systems into a thick transparent substrate of plane-parallel geometry. For this approach all optical elements are located on the surfaces of the substrate (Fig. 1). Light signals propagate along a folded optical axis. All elements of the entire optical system form a two dimensional structure. This makes planar-integrated optics compatible with micro-electronics and allows, for instance, the fabrication of the system as a single diffractive optical surface relief by use of standard photo-lithographic techniques.

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Signal Recovery and Synthesis

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