使用数字微镜装置的敏捷波前分裂干涉测量和成像

SPIE Photonics Europe Pub Date : 2016-04-29 DOI:10.1117/12.2228373

J. P. La Torre, M. J. Amin, N. Riza

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引用次数: 2

摘要

自1997年以来，我们提出并演示了将德州仪器(TI)数字微镜器件(DMD)用于各种非显示应用，包括光开关和成像。在2009年，我们提出使用DMD来实现波前分裂干涉仪以及各种成像仪。具体来说，提出了使用空间光调制器(SLM)的敏捷电子可编程波前分裂干涉仪设计，例如(a)透射式SLM， (b) DMD SLM和(c)带有DMD SLM的分束器。slm使用开/关或数字状态像素，很像黑白状态光学窗口来控制入射光的通过/反射。SLM像素位置可以在空间和时间上进行调制，以创建自定义波前，用于光学探测器(如CCD/CMOS传感器、焦平面阵列(FPA)传感器或点光电探测器)的近共程光干涉。本文介绍了基于dmd的波前分裂干涉仪和成像仪的设计及其相关实验结果。

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Agile wavefront splitting interferometry and imaging using a digital micromirror device

Since 1997, we have proposed and demonstrated the use of the Texas Instrument (TI) Digital Micromirror Device (DMD) for various non-display applications including optical switching and imaging. In 2009, we proposed the use of the DMD to realize wavefront splitting interferometers as well as a variety of imagers. Specifically, proposed were agile electronically programmable wavefront splitting interferometer designs using a Spatial Light Modulator (SLM) such as (a) a transmissive SLM, (b) a DMD SLM and (c) a Beamsplitter with a DMD SLM. The SLMs operates with on/off or digital state pixels, much like a black and white state optical window to control passage/reflection of incident light. SLM pixel locations can be spatially and temporally modulated to create custom wavefronts for near-common path optical interference at the optical detectors such as a CCD/CMOS sensor, a Focal Plane Array (FPA) sensor or a point-photodetector. This paper describes the proposed DMD-based wavefront splitting interferometer and imager designs and their relevant experimental results.

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SPIE Photonics Europe

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