Optical Fiber Technology ( IF 2.6 ) Pub Date : 2021-05-25 , DOI: 10.1016/j.yofte.2021.102588 Hani J. Kbashi , Vishal Sharma , Sergey Sergeyev
This work utilizes an experimentally designed erbium-doped fiber-based tunable dual-wavelength laser (EDFL) to generate phase-stable millimeter waves over a wide-band of ≈ 12–110 GHz and their transmission over the radio-over-fiber (RoF) link. The generated fiber-laser-based millimeter waves are transmitted over a RoF link, including an optical link of 20 km and a wireless link of 50 m, which is carried out via a co-simulation of Optisystem™ and MATLAB™ software. The successful transmission of the proposed fiber-laser-based millimeter waves show the possibilities of realizing diverse 5G-supported microwave-photonic systems.
中文翻译:
基于双波长光纤激光器的毫米波传输,用于支持5G的无线光纤(RoF)链路
这项工作利用实验设计的掺光纤基可调谐双波长激光器(EDFL)在大约12–110 GHz的宽带范围内产生相位稳定的毫米波,并通过光纤无线电(RoF)进行传输。) 关联。生成的基于光纤激光的毫米波通过RoF链路传输,包括20 km的光学链路和50 m的无线链路,这是通过Optisystem ™和MATLAB ™软件的共同仿真来执行的。所提出的基于光纤激光器的毫米波的成功传输表明,实现支持5G的各种微波光子系统的可能性。