Research on adaptive optics technology based on phase contrast Gerchberg Saxton algorithm

Rui Wang, Xizheng Ke, Jingyuan Lang, JiaLi Wu
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Abstract

In wireless optical communication, the optical signal passes through the atmospheric turbulence, resulting in the simultaneous distortion of the amplitude and phase of the optical signal at the receiving end. This article applies the idea of phase contrast method to simultaneously compensate the amplitude and phase of the optical signal at the receiving end, derives the mapping relationship between the compensated phase and light intensity, and obtains the required compensated phase for full-field compensation. Numerical calculations show that when the difference between zero-frequency phase compensation and nonzero-frequency phase compensation is ±π, the maximum light intensity compensation is obtained. Based on the Gerchberg Saxton algorithm, a new method is proposed to invert the compensated phase with the maximum light intensity after full-field compensation and perform full-field correction through the adaptive optical system. The numerical calculation and experiment show that the phase contrast Gerchberg Saxton algorithm can effectively compensate the distorted optical signals under different turbulence, and thus the received signals of optical wireless communication can be corrected in full field.
基于相位对比 Gerchberg Saxton 算法的自适应光学技术研究
在无线光通信中,光信号穿过大气湍流,导致接收端光信号的振幅和相位同时失真。本文应用相位对比法的思想同时补偿接收端光信号的振幅和相位,推导出补偿相位与光强之间的映射关系,并得到全场补偿所需的补偿相位。数值计算表明,当零频率相位补偿与非零频率相位补偿的差值为 ±π 时,可获得最大光强补偿。基于 Gerchberg Saxton 算法,提出了一种新方法,将全场补偿后的补偿相位与最大光强进行反相,并通过自适应光学系统进行全场校正。数值计算和实验表明,相位对比 Gerchberg Saxton 算法能有效补偿不同湍流条件下失真光信号,从而对光无线通信接收信号进行全场校正。
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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