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具有自适应湍流补偿的20吉比特/秒高速贝塞尔光束编码/解码链路的演示。

Demonstration of 20-Gbit/s high-speed Bessel beam encoding/decoding link with adaptive turbulence compensation.

作者信息

Chen Shi, Li Shuhui, Zhao Yifan, Liu Jun, Zhu Long, Wang Andong, Du Jing, Shen Li, Wang Jian

出版信息

Opt Lett. 2016 Oct 15;41(20):4680-4683. doi: 10.1364/OL.41.004680.

Abstract

By mapping traditional amplitude modulation to spatial modulation and employing adaptive optics compensation technique, we propose and experimentally demonstrate a high-speed Bessel beam encoding/decoding free-space optical link through atmospheric turbulence. The Bessel beam encoding/decoding speed is not limited by the conventional slow switching response of a spatial light modulator (SLM) but is fully determined by the modulation rate of an intensity modulator, which easily supports tens of gigabits per second modulation and resultant encoding/decoding. We use an SLM loaded with a pseudorandom phase mask to emulate atmospheric turbulence in the laboratory environment. An adaptive optics closed loop is used to sense the phase distortion of an extra probe Gaussian beam and then compensate the distorted Bessel beams. A 20-Gbit/s Bessel beam encoding/decoding link with adaptive turbulence compensation is demonstrated in the experiment, showing favorable operation performance.

摘要

通过将传统的幅度调制映射到空间调制并采用自适应光学补偿技术,我们提出并通过实验证明了一种通过大气湍流的高速贝塞尔光束编码/解码自由空间光链路。贝塞尔光束编码/解码速度不受空间光调制器(SLM)传统的缓慢切换响应限制,而是完全由强度调制器的调制速率决定,强度调制器很容易支持每秒数十吉比特的调制以及由此产生的编码/解码。我们在实验室环境中使用加载有伪随机相位掩模的SLM来模拟大气湍流。自适应光学闭环用于感测额外探测高斯光束的相位失真,然后补偿失真的贝塞尔光束。实验中展示了具有自适应湍流补偿的20 Gbit/s贝塞尔光束编码/解码链路,显示出良好的运行性能。

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