Capacity analysis of free space optical links for a partially coherent Gaussian beam over a turbulent channel with pointing errors

It Ee Lee, Zabih Ghassemlooy, Wai Pang Ng, M. Khalighi, M. Uysal
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引用次数: 2

Abstract

In this paper, we investigate the joint effects of beam width and the spatial coherence length in a partially coherent free-space optical (FSO) link from the information theory perspective, taking into account the combined influence of atmospheric turbulence and pointing errors. In addition, the effects of aperture-averaging on the average capacity of FSO links employing partially coherent beams (PCBs) are examined. Results show that PCBs are desirable in the weak-to-moderate turbulence regime, whereas highly coherent laser sources are preferred under strong fluctuations conditions; and there exist optimality in the optical beam parameters for different atmospheric channel conditions. Near-optimal average capacity is best achieved through the introduction of a larger receiver aperture and the joint beam width and spatial coherence length optimization technique, which effectively mitigates the effects of scintillation and pointing errors.
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具有指向误差的湍流通道上部分相干高斯光束的自由空间光链路容量分析
本文从信息论的角度研究了部分相干自由空间光学链路中光束宽度和空间相干长度的联合效应,同时考虑了大气湍流和指向误差的综合影响。此外,还研究了孔径平均对采用部分相干波束(pcb)的FSO链路平均容量的影响。结果表明,在弱到中等湍流条件下,pcb是理想的,而在强波动条件下,高相干激光源是首选的;在不同的大气通道条件下,光束参数存在最优性。通过引入更大的接收孔径和联合波束宽度和空间相干长度优化技术,可以有效地减轻闪烁和指向误差的影响,从而达到接近最优的平均容量。
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