О формировании траектории оси лазерного излучения в дифференциальной кювете Андерсона

Журнал технической физики Pub Date : 2023-01-01 DOI:10.21883/jtf.2023.01.54073.223-22

Анатолий Асирович Гольдберг, Р. В. Давыдов, И.Д. Кочетков, В. В. Давыдов, Д.С. Проводин

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Abstract

The necessity of studying the nature of the propagation of the maximum of the laser radiation pattern in the Anderson differential cell is substantiated. A new technique has been developed for conducting these studies, which takes into account all factors when constructing the trajectory of the maximum laser radiation in the cuvette, as well as outside it (up to the sensor of the photodiode line, on which the radiation is recorded). For the first time, an equation was derived to study the change in the nature of the propagation trajectory of the maximum of laser radiation in the Anderson cell, and beyond it, depending on its various parameters, the values of the refractive indices of the reference ns and the liquid medium under study, nm. The results of checking the reliability of the developed equation are presented. For the first time, a 12th degree polynomial was obtained for Anderson's differential cell with respect to the refractive index of the medium under study to obtain an analytical solution of the developed equation. This solution will provide additional information about the physics of the processes under consideration and the relationships between different quantities.

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在安德森微分沟渠中形成激光轴轨迹

论证了研究激光辐射图最大值在安德森差动池中传播性质的必要性。为了进行这些研究，一项新技术已经被开发出来，它在构建试管内以及试管外的最大激光辐射轨迹时考虑了所有因素(直到光电二极管线的传感器，在该传感器上记录辐射)。本文首次推导了一个方程，用于研究安德森池中激光辐射最大值及其以外的传播轨迹性质的变化，该变化取决于其各种参数，参考介质ns和所研究液体介质nm的折射率值。给出了所建立方程的可靠性验算结果。本文首次得到了关于所研究介质折射率的Anderson微分单元的12次多项式，从而得到了所建立方程的解析解。此解决方案将提供有关所考虑的过程的物理以及不同量之间关系的额外信息。

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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Журнал технической физики

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