光子相关实验的微型仪器

Photon Correlation Techniques and Applications Pub Date : 1900-01-01 DOI:10.1364/pcta.1988.nit172

Robert G. W. Brown

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引用次数: 0

摘要

用于光子相关激光测风和光谱学的传统光学系统依赖于物理上较大且相当昂贵的激光器，“大块光学”，如几英寸直径的透镜，大型机械支架等，以及精心挑选的易碎且笨重的光子计数光电倍增管探测器。在某些情况下，在流体中需要的位置进行实验流体动力学，也许是在复杂机械的深处，在物理上是不可能的或非常困难的。光子相关光谱学也存在类似的问题。、外差实验。我们已经研究和表征了各种光学和电光元件，旨在以小型化的形式取代现有的光子相关激光测风和光谱技术，并显著降低成本。

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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Miniature Instrumentation for Photon Correlation Experiments

Traditional optical systems for photon correlation laser anemometry and spectroscopy have relied upon physically large and fairly expensive lasers, "bulk-optics" such as lenses of a few inches diameter, large mechanical mounts etc and carefully selected, fragile and bulky photon-counting photomultiplier detectors. In some cases experimental fluid dynamics at a desired position in a flow, perhaps deep inside complex machinery, is physically impossible or very difficult. Similar problems exist with photon correlation spectroscopy, eg., heterodyne experiments. We have investigated and characterized various optical and electro-optical components with the aim of replacing existing photon correlation laser anemometry and spectroscopy techniques in miniaturized form, and with significant cost reduction.

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Photon Correlation Techniques and Applications

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