Bismuth-Doped Fiber Lasers and Amplifiers Operating from O- to U-Band: Current State of the Art and Outlook

IF 2.1 4区 物理与天体物理 Q2 OPTICS
Sergey V. Alyshev, A. Khegai, Andrey Umnikov, S. Firstov
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Abstract

The development of unique optical materials that provide amplification and lasing in new wavelength ranges is a major scientific problem, the solution of which is becoming the basis for the emergence of new optical technologies, which are primarily targeting the expanding of operating wavelengths in silica glass. In fact, one of the notable advances in the field of fiber optics over the past two decades has been the production of a new type of laser-active fibers (namely bismuth-doped fibers), which has made it possible to cover previously inaccessible (for rare-earth-doped fibers) spectral ranges, in particular O-, E-, S-, and U-telecom bands. The advance in this direction has led to further growth of the technological capabilities in the telecom industry for amplification and generation of optical radiation in various wavelength bands, which will result in the near future to overcoming the problem known as “capacity crunch” by means of expanding the data transmission range. Recently, bismuth-doped fibers have been actively studying in order to improve their characteristics, which would allow for efficient implementation of optical devices based on bismuth-doped fibers (BDFs) with deployed telecommunications systems. This is one of the dynamically developing areas, where progress has already manifested in form of emergence of new achievements, in particular commercially available various types of BDFs, as well as a series of novel fiber-optic amplifiers for the O- and E-bands. In this review, a number of scientific studies that have already led to a noticeable progress in the field of optical properties of BDFs and the practical implementation of optical devices (lasers and amplifiers) based on them are presented and discussed, with much attention to the achievements of recent years.
运行于 O 波段至 U 波段的掺铋光纤激光器和放大器:技术现状与展望
开发能够在新波长范围内提供放大和激光的独特光学材料是一个重大科学问题,解决这一问题正在成为新光学技术出现的基础,而新光学技术的主要目标是扩大硅玻璃的工作波长。事实上,过去二十年来光纤领域的一个显著进步就是生产出了一种新型的激光活性光纤(即掺铋光纤),从而可以覆盖以前无法达到的(掺稀土光纤)光谱范围,特别是 O、E、S 和 U 电信波段。在这一方向上取得的进步促使电信业进一步提高了在不同波段放大和产生光辐射的技术能力,这将在不久的将来通过扩大数据传输范围来克服被称为 "容量紧缩 "的问题。最近,人们一直在积极研究掺铋光纤,以改进其特性,从而使基于掺铋光纤(BDF)的光设备能够有效地应用于已部署的电信系统。这是一个蓬勃发展的领域,其进展表现为新成果的出现,特别是各种类型的掺铋光纤以及一系列用于 O 波段和 E 波段的新型光纤放大器的商业化。在这篇综述中,介绍并讨论了在 BDF 光学特性和基于 BDF 的光学设备(激光器和放大器)的实际应用方面已取得显著进展的一系列科学研究,并对近年来取得的成就给予了极大关注。
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来源期刊
Photonics
Photonics Physics and Astronomy-Instrumentation
CiteScore
2.60
自引率
20.80%
发文量
817
审稿时长
8 weeks
期刊介绍: Photonics (ISSN 2304-6732) aims at a fast turn around time for peer-reviewing manuscripts and producing accepted articles. The online-only and open access nature of the journal will allow for a speedy and wide circulation of your research as well as review articles. We aim at establishing Photonics as a leading venue for publishing high impact fundamental research but also applications of optics and photonics. The journal particularly welcomes both theoretical (simulation) and experimental research. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Electronic files and software regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material.
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