海洋湍流中具有扭曲相位的部分相干涡束的传播特性

IF 0.7 4区 物理与天体物理 Q4 OPTICS
NianChi Hao, Yonggen Xu, Qian Xu, Wenli Liu, Bangzhuo An, Xueru Deng, Zairu Ma
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引用次数: 0

摘要

在扩展惠更斯-菲涅尔原理的帮助下,我们推导出了穿过海洋湍流的部分相干扭曲拉盖尔-高斯涡旋(PCTLGV)光束平均强度的分析表达式。研究结果表明,随着传播距离的增加,PCTLGV 光束的归一化初始剖面(暗空分布)逐渐转变为平顶分布,最后退化为类高斯分布。研究结果还表明,海洋湍流对 PCTLGV 光束传播特性的影响可以通过调节扭曲因子和拓扑电荷得到有效缓解。我们还发现,当拓扑电荷和扭曲因子的符号相反以及扭曲因子的绝对值较大时,PCTLGV光束表现出更强的抗湍流能力。此外,在较强的湍流中,PCTLGV 光束会比较差的湍流快速退化,这可以通过增加初始相干长度来抵消。我们的研究可为水下通信传输、海洋激光雷达探测和光学成像做出贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Propagation Properties of Partially Coherent Vortex Beams with Twist Phase in Oceanic Turbulence

We derive the analytical expressions of the average intensity of a partially coherent twisted Laguerre– Gaussian vortex (PCTLGV) beam passing through oceanic turbulence with the help of the extended Huygens–Fresnel principle. The findings show that the normalized initial profile with a dark hollow distribution of PCTLGV beam gradually converts into a flat-topped one, and finally degenerates into a Gaussian-like distribution as the propagation distance increases. The outcomes also reveal that the effect of oceanic turbulence on the propagation properties of PCTLGV beam can be effectively mitigated by regulating the twist factor and topological charge. We also find that PCTLGV beam exhibits stronger anti-turbulence ability, when the topological charge and twist factor have opposite signs as well as larger absolute values of twist factor. In addition, the PCTLGV beam will degenerate fast in stronger turbulence over the poor turbulence, which can be counteracted by increasing the initial coherence lengths. Our researches can contribute to underwater communication transmission, oceanic laser radar detection, and optical imaging.

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来源期刊
CiteScore
1.50
自引率
22.20%
发文量
73
审稿时长
2 months
期刊介绍: The journal publishes original, high-quality articles that follow new developments in all areas of laser research, including: laser physics; laser interaction with matter; properties of laser beams; laser thermonuclear fusion; laser chemistry; quantum and nonlinear optics; optoelectronics; solid state, gas, liquid, chemical, and semiconductor lasers.
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