在以净反常色散工作的模式锁定掺镱光纤激光器中观测到相距甚远的孤子分子

IF 2.2 3区 物理与天体物理 Q2 OPTICS
Fernando Torres-Leal , Naveed Abbas , Claude Aguergaray , Neil G.R. Broderick
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引用次数: 0

摘要

本文研究了带有线性腔的半导体可饱和吸收镜(SESAM)模式锁定掺镱光纤激光器中孤子分子(SM)的产生和特性。通过调节泵浦功率,可以实现单脉冲(SP)和双脉冲(DP)状态。观测到的孤子分子高度稳定,尽管相隔 1.56ns 却具有最小的时间抖动。虽然在许多不同的空腔中都观测到了孤子分子,但这是在法布里-珀罗空腔而不是环形空腔中观测到的为数不多的报告之一。因此,这种构型提供了对 SM 行为的详细而有价值的见解,揭示了它们的形成、稳定性和动力学。这项研究有助于理解光纤激光器中的长距离孤子相互作用,对多比特传输、比特存储以及研究化学反应动力学的泵浦探针实验等应用具有潜在影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Observation of widely separated soliton molecules in a mode-locked Yb-doped fiber laser operating with net anomalous dispersion
This paper investigates the generation and characterization of soliton molecules (SM) in a semiconductor saturable absorber mirror (SESAM) mode-locked Yb-doped fiber laser with a linear cavity. By adjusting the pump power, both single-pulsing (SP) and double-pulsing (DP) states can be achieved. The observed soliton molecules are highly stable, with minimal temporal jitter despite being separated by 1.56ns. While SM have been observed in many different cavities this is one of the few reports in a Fabry–Perot cavity rather than a ring cavity and again most previous observations of soliton molecules having been in the anomalous dispersion regime. This configuration thus provides detailed and valuable insights into the behavior of SM, shedding light on their formation, stability, and dynamics. This study contributes to understanding long range soliton interactions in fiber lasers, with potential implications for applications such as multi-bit transmission, bit storage, and pump–probe experiments to study the dynamics of chemical reactions.
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来源期刊
Optics Communications
Optics Communications 物理-光学
CiteScore
5.10
自引率
8.30%
发文量
681
审稿时长
38 days
期刊介绍: Optics Communications invites original and timely contributions containing new results in various fields of optics and photonics. The journal considers theoretical and experimental research in areas ranging from the fundamental properties of light to technological applications. Topics covered include classical and quantum optics, optical physics and light-matter interactions, lasers, imaging, guided-wave optics and optical information processing. Manuscripts should offer clear evidence of novelty and significance. Papers concentrating on mathematical and computational issues, with limited connection to optics, are not suitable for publication in the Journal. Similarly, small technical advances, or papers concerned only with engineering applications or issues of materials science fall outside the journal scope.
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