Comparative Study of Two Definitions of the Turbulent Distance for Laser Beams Propagating Through Non-Kolmogorov Atmospheric Turbulence

Pub Date : 2023-08-26 DOI:10.1007/s10946-023-10152-8

Yongping Huang, Zhichun Duan, Xingyong Huang, Shiwei Xie

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Abstract

Using two definitions of the turbulent distance to characterize the laser beam propagation through atmospheric turbulence, we derive a general analytical expression for the beam spread η depending on the turbulence parameter T(α) with the generalized exponent α and on the initial second-order beam moments in the z = 0 plane. Larger values of η correspond to a larger influence of atmospheric turbulence on the laser beam. We subsequently apply the analytical expression of η to a partially coherent Hermite–Gaussian beam propagating through non-Kolmogorov turbulence and illustrate the properties of η by numerical examples. The results show that the η values first increase, reach their maximum for a generalized exponent α ≈ 3.11, and then decrease with increase in α. Also η decreases with increasing beam order and wavelength, as well as with increasing values of the generalized refractive-index structural turbulence parameter, beam waist width, and coherence parameter.

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激光穿过非柯尔莫哥洛夫大气湍流时两种湍流距离定义的比较研究

利用湍流距离的两种定义来表征激光束在大气湍流中的传播，我们推导了光束传播η的一般解析表达式，该表达式依赖于具有广义指数α的湍流参数T(α)和z = 0平面上的初始二阶光束矩。η值越大，对应于大气湍流对激光束的影响越大。我们随后将η的解析表达式应用于通过非kolmogorov湍流传播的部分相干厄米-高斯光束，并通过数值例子说明η的性质。结果表明，η值先增大，在广义指数α≈3.11时达到最大值，然后随着α的增大而减小。η随光束阶数和波长的增加以及广义折射率结构湍流参数、光束腰宽和相干参数的增大而减小。

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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