双通状态下o波段掺镨光纤放大器的性能评价

IF 2.3 4区物理与天体物理 Q2 OPTICS

Fiber and Integrated Optics Pub Date : 2022-11-02 DOI:10.1080/01468030.2022.2148143

Dunya Zeki Mohammed, Abdulmunem Kadhim Hammadi

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引用次数: 0

摘要

本文基于理论仿真，设计并研究了o波段单通和双通结构的紧凑型掺镨光纤放大器(PDFAs)。综合考虑并比较了掺杂光纤特性、输入信号功率和输入抽运功率对放大器增益和噪声系数的影响。在泵浦功率为350 mW和最佳掺镨光纤长度的情况下，双通方案比单通方案获得了更高的增益。这是由于转发和放大的自发发射(ASE)信号通过增益介质的双重传播。此外，这两种配置在输入信号功率为−10 dB时都比输入信号功率为0 dB时表现出更好的放大性能。双通模式的放大增益比单通模式高约4 dB，最大功率转换效率(PCE)为14%。事实上，PDF核心半径和掺杂浓度被认为是至关重要的因素。随着掺核半径的减小，增益增加和NF衰减显著，而低掺杂浓度的信号增益与优化值相比非常小。

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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Performance evaluation of O-band praseodymium-doped fiber amplifier with dual-pass regime

ABSTRACT In this work, compact praseodymium-doped fiber amplifiers (PDFAs) with single- and dual-pass configurations are designed and investigated in the O-band region based on theoretical simulation. The impact of doped fiber characteristics, input signal power and input pumping power on the gain and the noise figure of the proposed amplifiers are comprehensively considered and compared. At an input pumping power of 350 mW and optimum praseodymium-doped fiber (PDF) length, the obtained results show that dual-pass model recorded higher gain than the single-pass scheme. This occurs because of the dual propagation of the forwarded and amplified spontaneous emission (ASE) signal through the gain medium. Moreover, both proposed configurations exposed better amplification performance at an input signal power of −10 dB compared to the higher input signal power of 0 dB. The dual-pass regime shows higher amplification gain than the single-pass one of about 4 dB and a maximum power conversion efficiency (PCE) of 14%. Indeed, the PDF core radius and doping concentration are considered as vital factors. Decrement of doped-core radius leads to a notable gain increment and NF decay, whereas low doping concentrations show very small signal gain compared to the optimized value.

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来源期刊

Fiber and Integrated Optics 物理-光学

CiteScore

3.40

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Fiber and Integrated Optics , now incorporating the International Journal of Optoelectronics, is an international bimonthly journal that disseminates significant developments and in-depth surveys in the fields of fiber and integrated optics. The journal is unique in bridging the major disciplines relevant to optical fibers and electro-optical devices. This results in a balanced presentation of basic research, systems applications, and economics. For more than a decade, Fiber and Integrated Optics has been a valuable forum for scientists, engineers, manufacturers, and the business community to exchange and discuss techno-economic advances in the field.