基于 100 通道光致发光拉曼光纤激光器的多功能微波光子滤波器

IF 3.3 3区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Optical and Quantum Electronics Pub Date : 2024-11-16 DOI:10.1007/s11082-024-07739-z

Zhi-Yong Yau, Yu-Gang Shee, Eng-Hock Lim, Zuxing Zhang, Mohd Adzir Mahdi

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引用次数: 0

摘要

微波光子滤波器（MPF）是满足现代电信系统高速、高频信号处理需求的最关键元件之一。在此，我们首次提出了一种基于双波长间距布里渊-拉曼光纤激光器（BRFL）的 MPF，以实现多功能带通滤波器。所提议的装置产生了 100 个间距约为 20 GHz 的光抽头输出，作为 MPF 的光源。使用 5 千米长的单模光纤和 3.46 千米长的色散补偿光纤作为色散介质，以表征时延对 MPF 通带中心频率的影响。通过使用 10 至 100 个间距为 20 GHz 的光抽头来改变 BRFL 光通道数，可实现以 10.3 GHz 为中心、从 150 MHz 到 1.12 GHz 的可重新配置 3-dB 带宽。实验研究发现，所提议的 MPF 的 3-dB 带宽和 Q 因子与仿真结果十分吻合，这证明了 BRFL 作为激光源在实现灵活多用的射频横向滤波器方面所具有的潜力，而且有可能降低成本和复杂性。

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Versatile microwave photonic filter based on 100-channel brillouin raman fiber laser

Microwave photonic filters (MPF) are among the most crucial components required for meeting the demands of high-speed and high-frequency signal processing of modern telecommunication systems. For the first time, here, we propose an MPF based on a double wavelength spacing Brillouin-Raman fiber laser (BRFL) to realize a versatile bandpass filter. The proposed setup generated 100 optical taps output with ~ 20 GHz spacings as the light source of the MPF. A dispersive medium of 5 km long single mode fiber and 3.46 km long dispersion compensating fiber were used to characterize the effect of the time delay on the central frequency of the MPF passband. A reconfigurable 3-dB bandwidth from 150 MHz to 1.12 GHz centered around 10.3 GHz is achievable by varying the BRFL optical channel numbers using 10 to 100 optical taps with 20 GHz spacing. The 3-dB bandwidth and Q-factor of the proposed MPF were investigated experimentally and found to be in good agreement with simulation, demonstrating the potential of the BRFL as a laser source for the realization of flexible and versatile radio frequency transversal filters with potentially reduced cost and complexity.

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来源期刊

Optical and Quantum Electronics 工程技术-工程：电子与电气

CiteScore

4.60

自引率

20.00%

发文量

810

审稿时长

3.8 months

期刊介绍： Optical and Quantum Electronics provides an international forum for the publication of original research papers, tutorial reviews and letters in such fields as optical physics, optical engineering and optoelectronics. Special issues are published on topics of current interest. Optical and Quantum Electronics is published monthly. It is concerned with the technology and physics of optical systems, components and devices, i.e., with topics such as: optical fibres; semiconductor lasers and LEDs; light detection and imaging devices; nanophotonics; photonic integration and optoelectronic integrated circuits; silicon photonics; displays; optical communications from devices to systems; materials for photonics (e.g. semiconductors, glasses, graphene); the physics and simulation of optical devices and systems; nanotechnologies in photonics (including engineered nano-structures such as photonic crystals, sub-wavelength photonic structures, metamaterials, and plasmonics); advanced quantum and optoelectronic applications (e.g. quantum computing, memory and communications, quantum sensing and quantum dots); photonic sensors and bio-sensors; Terahertz phenomena; non-linear optics and ultrafast phenomena; green photonics.