使用InAs/InP量子冲刺锁模激光器的光纤链路双工毫米波

2022 IEEE International Topical Meeting on Microwave Photonics (MWP) Pub Date : 2022-10-01 DOI:10.1109/MWP54208.2022.9997655

Yu Huang, K. Zeb, Guocheng Liu, P. Poole, Xiupu Zhang, Zhenguo Lu, Ke Wu, J. Yao

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引用次数: 1

摘要

我们实验展示了一种双工毫米波光纤(MMWoF)链路，用于双工无线通信，使用自由运行的InAs/InP量子短跑无源锁模激光器(QD-MLL)作为光源。QD-MLL能够产生梳间距为0.2 nm (25.08 GHz)的频率梳。在下行链路中，3ghz的微波矢量信号在一条梳状线上调制，并通过相邻的梳状线通过10公里的单模光纤传输到远程无线电设备。经光电探测器检测后，产生上变频频率为28ghz的微波矢量信号并辐射，实现2m的无线传输。在上行链路中，28ghz的微波矢量信号向下转换为3ghz，在重复使用的梳状线上调制，并通过同一光纤链路传输到中心局。从误差矢量大小和误码率两方面对其性能进行了实验评价。

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Duplex Millimeter-Wave Over Fiber Link Using an InAs/InP Quantum-Dash Mode-Locked Laser

We experimentally demonstrate a duplex millimeter-wave-over-fiber (MMWoF) link for duplex wireless communications using a free-running InAs/InP quantum-dash passively-mode-locked laser (QD-MLL) as a light source. The QD-MLL is able to generate a frequency comb with a comb spacing of 0.2 nm (25.08 GHz). In the downlink, a microwave vector signal at 3 GHz is modulated on one comb line and transmitted with an adjacent comb line to a remote radio unit over a 10-km single-mode fiber. After detection at a photodetector, a microwave vector signal at an up-converted frequency of 28 GHz is generated and radiated to achieve 2-m wireless transmission. In the uplink, a microwave vector signal at 28 GHz is down converted to 3 GHz and modulated on a reused comb line and transmitted to the central office over the same fiber link. The performance in terms of the error vector magnitudes and bit error rates is evaluated experimentally.

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2022 IEEE International Topical Meeting on Microwave Photonics (MWP)

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