在湍流介质中生成部分相干全波卡莱光束阵列及其斯托克斯闪烁

IF 3.5 2区物理与天体物理 Q2 PHYSICS, APPLIED

Applied Physics Letters Pub Date : 2024-10-21 DOI:10.1063/5.0224179

Yakun Wang, Kexin Gu, Zhen Dong, Fei Wang, Yahong Chen, Yangjian Cai, Yonglei Liu

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引用次数: 0

摘要

我们介绍了一种矢量光束阵列，称为部分相干全普恩卡雷（PCFP）光束阵列，并利用模态矢量分解方法在实验中合成了这种光束阵列。我们的实验系统包括一个数字微镜装置，它几乎可以实时生成空间相干性和阵列结构可控的光束阵列，从而能够测试大气湍流对它们的影响。此外，我们还通过实验检验了 PCFP 光束阵列在实验室模拟湍流中传播时四个斯托克斯参数（分别为 S0、S1、S2 和 S3）的闪烁情况。结果表明，斯托克斯闪烁会随着小光束数量的增加或空间相干性的降低而减小。与 S0 闪烁（强度闪烁）相比，在相同条件下，S1、S2 或 S3 闪烁受湍流的影响较小。我们的实验结果表明，在强湍流中，S2 和 S3 闪烁比强度闪烁分别减少了 67.2% 和 52.4%。当斯托克斯参数 S2 或 S3 被用作信息载体时，我们的发现在自由空间光通信中具有潜在的应用价值。

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Generation of partially coherent full Poincaré beam arrays and their Stokes scintillations in turbulent media

A type of vector beam arrays, called partially coherent full Poincaré (PCFP) beam arrays, is introduced and experimentally synthesized using modal-vector-decomposition method. Our experimental system involves a digital micro-mirror device, which can generate such beam arrays with controllable spatial coherence and array structure in almost real-time, enabling to test the impact of atmospheric turbulence on them. Furthermore, we experimentally examine the scintillations of four Stokes parameters (denoted as S0, S1, S2, and S3) of PCFP beam arrays propagating through lab-simulated turbulence. The results indicate that the Stokes scintillations decrease as the number of beamlets increase or spatial coherence decreases. In contrast to S0 scintillation (intensity scintillation), S1, S2, or S3 scintillation is less affected by the turbulence under the same conditions. Our experimental results show that S2 and S3 scintillations could reduce by 67.2% and 52.4% compared to the intensity scintillation in strong turbulence. Our findings have potential applications in free-space optical communication when the Stokes parameter S2 or S3 is served as an information carrier.

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来源期刊

Applied Physics Letters 物理-物理：应用

CiteScore

6.40

自引率

10.00%

发文量

1821

审稿时长

1.6 months

期刊介绍： Applied Physics Letters (APL) features concise, up-to-date reports on significant new findings in applied physics. Emphasizing rapid dissemination of key data and new physical insights, APL offers prompt publication of new experimental and theoretical papers reporting applications of physics phenomena to all branches of science, engineering, and modern technology. In addition to regular articles, the journal also publishes invited Fast Track, Perspectives, and in-depth Editorials which report on cutting-edge areas in applied physics. APL Perspectives are forward-looking invited letters which highlight recent developments or discoveries. Emphasis is placed on very recent developments, potentially disruptive technologies, open questions and possible solutions. They also include a mini-roadmap detailing where the community should direct efforts in order for the phenomena to be viable for application and the challenges associated with meeting that performance threshold. Perspectives are characterized by personal viewpoints and opinions of recognized experts in the field. Fast Track articles are invited original research articles that report results that are particularly novel and important or provide a significant advancement in an emerging field. Because of the urgency and scientific importance of the work, the peer review process is accelerated. If, during the review process, it becomes apparent that the paper does not meet the Fast Track criterion, it is returned to a normal track.