散斑干涉法:改进驯服障碍的方法

International Conference on Holography, Optical Recording, and Processing of Information Pub Date : 2006-05-20 DOI:10.1117/12.677171

P. Jacquot

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引用次数: 4

摘要

在涉及至少一个散斑波的双光束干涉实验中，散斑波的强度和相位呈快速波动分布。没有办法预测干涉图样在大于相关体积的距离上的演变——对于可见光波长和通常的孔径，小到3×3×100 μm3。与正确理解和良好实践散斑干涉(SI)相关的大多数困难都来自于这一观察结果。这也解释了为什么仅仅由基本双光束干涉或三角形公式支配的技术仍然会引起许多问题。这篇文章回顾了SI的一些基本原理，主要是那些与散斑现象的随机性质有关的结果。它讨论了被认为是最有趣的光学排列，操作方式和相位提取方案，最后提出了选择的应用。经常记在心里的是设法处理所分析的散斑分布的明显无序的想法。

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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Speckle interferometry: refining the methods for taming disorder

In a two-beam interference experiment involving at least one speckle wave, intensity and phase are rapidly fluctuating distributions. There is no way to make a prediction of the evolution of the interference pattern aver distances greater than the correlation volume - as small as 3×3×100 μm3 for visible wavelengths and usual apertures. Most of the difficulties associated with a correct understanding and a good practice of speckle interferometry (SI) arise from this observation. It also explains why a technique simply ruled by the elementary two-beam interference or triangle formula raises nonetheless many problems. This contribution reviews some of the fundamentals of SI, mainly those concerned with the consequences of the random nature of the speckle phenomenon. It discusses what is thought to be the most interesting optical arrangements, modi operandi and phase extraction schemes, and finally presents selected applications. Constantly kept in mind is the idea to try to cope with the apparent disorder of the analyzed speckle distributions.

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International Conference on Holography, Optical Recording, and Processing of Information

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