Photo-elastic Effect Features Used for Measuring Laser Radiation Parameters

A. Hasanov, R. A. Hasanov, A. Huseynov, E. Agayev, R. Ahmadov
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Abstract

The article discusses the photo-elastic effect features in acousto-optic processors for processing pulse signals on the time axis. The photo-elastic interaction in these devices is divided into two areas. In the first area, the input pulse duration is longer than the time of intersecting the optical beam by the elastic wave packet. This particular area is widely used in the practical applications of these processors, where it is a priori assumed that the input pulse duration is longer than the time for the elastic wave packet to intersect the optical beam.In the second area, the input pulse duration is less than the time for the optical beam to be intersected by the elastic wave packet. The objective of this work is to study the photo-elastic effect features in this area. It was established that in this area the pulse duration at the processor output is equal to the time for the optical beam to be intersected by the elastic wave packet and does not depend on the input pulse duration, which is permissible in some cases (for example, in radar pulse existence rather than its duration is recorded). It is shown that in the second area, the output pulse is formed as the sum of three terms. The first term corresponds to the elastic wave packet entering the optical beam. The second term corresponds to the elastic wave packet advancement in the optical beam aperture, and the third one keeps with the elastic wave packet leaving the aperture of the optical beam. The corresponding equations for calculating the pulse at the device output are obtained. The numerical calculations have proved the provisions and patterns established. The numerical modeling results were tested experimentally using a prototype of an acousto-optic processor with direct detection. The analysed results of theoretical and experimental studies unequivocally confirmed that the obtained formulas, formulated statements, and established provisions can be used to expand the functionality of acousto-optic processors, both with direct detection and of heterodyne type. It is shown that with a significant decrease in the input pulse duration relative to the time during which the optical beam is intersected by the elastic wave packet, the latter is converted into a scanning line and can be used to measure the geometric and energy characteristics of the quasi-coherent light.
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用于测量激光辐射参数的光弹性效应特性
本文讨论了处理时间轴上脉冲信号的声光处理器的光弹性特性。这些器件中的光弹性相互作用分为两个方面。在第一个区域,输入脉冲持续时间长于弹性波包与光束相交的时间。这一特殊领域被广泛应用于这些处理器的实际应用中,其中先验地假设输入脉冲持续时间长于弹性波包与光束相交的时间。在第二个区域,输入脉冲持续时间小于光束与弹性波包相交的时间。本工作的目的是研究该区域的光弹性效应特征。可以确定,在该区域,处理器输出端的脉冲持续时间等于光束与弹性波包相交的时间,并且不依赖于输入脉冲持续时间,这在某些情况下是允许的(例如,在雷达脉冲存在而不是记录其持续时间)。结果表明,在第二个区域中,输出脉冲形成为三项之和。第一项对应于进入光束的弹性波包。第二项对应于弹性波包在光束孔径内的推进,第三项与离开光束孔径的弹性波包保持一致。得到了计算器件输出端脉冲的相应方程。数值计算验证了所建立的规定和模式。利用直接检测声光处理器样机对数值模拟结果进行了实验验证。理论和实验研究的分析结果明确地证实了所得到的公式、公式陈述和既定规定可用于扩展声光处理器的功能,无论是直接检测还是外差型。结果表明,随着输入脉冲持续时间相对于光束与弹性波包相交时间的显著减小,弹性波包被转换成扫描线,可以用来测量准相干光的几何和能量特性。
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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