Performance Analysis on Single- and Double-Pass Ytterbium-Doped Fiber Amplifier in the 1 µm Region

IF 2.3 4区 物理与天体物理 Q2 OPTICS Fiber and Integrated Optics Pub Date : 2020-10-13 DOI:10.1080/01468030.2020.1829754
Dunya Zeki Mohammed, A. Al-Janabi
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引用次数: 2

Abstract

ABSTRACT In this work, single- and double-pass configurations of ytterbium-doped optical fiber amplifiers (YDFAs) have been investigated. This low quantum defect rare-earth dopant and their performance near 1 µm region has been comprehensively investigated on the basis of gain and noise figure in relation with input signal power and input pump power. The obtained results showed that at an input pump power of 100 mW, the gain was proportionally increased with ytterbium-doped fiber (YDF) length for both proposed configurations, but double-pass regime scored higher gain. This is due to the double-propagation of the forwarded and amplified spontaneous emission (ASE) signal into the active medium and hence will maximize the attainable gain near the 1 µm wavelength region. At YDF length of 5 m, the double-pass technique showed better amplification performance at a lower input signal power of −20 dB compared to the higher input signal power of 0 dB. The maximum gain and optical signal-to-noise ratio (OSNR) attained by double-pass configuration were 24.6 dB and 53.4 dB, respectively. Double-pass amplification at input signal power of −20 dB has increased the gain by 11.2 dB in comparison with the single-pass technique.
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1µm区域单通和双通掺镱光纤放大器性能分析
本文研究了掺镱光纤放大器(ydfa)的单通和双通结构。基于增益和噪声系数与输入信号功率和输入泵浦功率的关系,全面研究了这种低量子缺陷稀土掺杂剂及其在1µm区域附近的性能。结果表明,在输入泵浦功率为100 mW时,增益随掺镱光纤(YDF)长度的增加而成比例增加,但双通模式的增益更高。这是由于转发和放大的自发发射(ASE)信号在有源介质中的双重传播,因此将在1µm波长区域附近最大化可获得的增益。在YDF长度为5 m时,双通技术在−20 dB的低输入信号功率下比在0 dB的高输入信号功率下表现出更好的放大性能。双通道结构的最大增益和光信噪比(OSNR)分别为24.6 dB和53.4 dB。在输入信号功率为- 20 dB时的双通放大比单通技术增加了11.2 dB的增益。
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来源期刊
CiteScore
3.40
自引率
0.00%
发文量
4
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.
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