从多模渐变折射率光纤中的光波热化角度看空间光束自清洁

IF 7.7 2区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
M. Ferraro, F. Mangini, M. Zitelli, S. Wabnitz
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引用次数: 2

摘要

梯度折射率多模光纤输出端的横向强度分布在低强度背景下从散斑到钟形光束的输入功率诱导转换称为空间光束自清洁。其显著的性能是提高了输出光束的亮度和抗光纤弯曲和挤压。这些特性允许克服多模光纤在低输出光束质量方面的限制,这对于许多技术应用是非常有前途的。在这篇综述中,我们概述了空间光束自清洁的最新进展,它可以被看作是模态四波混频复杂过程中的一种热平衡状态。换句话说,相关的模式功率的非线性再分布最终有利于光纤的基本模式,可以在应用于填充光纤模式的光子气体的统计力学框架中描述。一方面,这一描述已被不同小组的一系列实验所证实。另一方面,一些尚未解决的问题仍然存在,我们为这一新兴和有争议的研究领域的未来研究提供了一个视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On spatial beam self-cleaning from the perspective of optical wave thermalization in multimode graded-index fibers
The input power-induced transformation of the transverse intensity profile at the output of graded-index multimode optical fibers from speckles into a bell-shaped beam sitting on a low intensity background is known as spatial beam self-cleaning. Its remarkable properties are the output beam brightness improvement and robustness to fiber bending and squeezing. These properties permit to overcome the limitations of multimode fibers in terms of low output beam quality, which is very promising for a host of technological applications. In this review, we outline recent progress in the understanding of spatial beam self-cleaning, which can be seen as a state of thermal equilibrium in the complex process of modal four-wave mixing. In other words, the associated nonlinear redistribution of the mode powers which ultimately favors the fundamental mode of the fiber can be described in the framework of statistical mechanics applied to the gas of photons populating the fiber modes. On the one hand, this description has been corroborated by a series of experiments by different groups. On the other hand, some open issues still remain, and we offer a perspective for future studies in this emerging and controversial field of research.
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来源期刊
Advances in Physics: X
Advances in Physics: X Physics and Astronomy-General Physics and Astronomy
CiteScore
13.60
自引率
0.00%
发文量
37
审稿时长
13 weeks
期刊介绍: Advances in Physics: X is a fully open-access journal that promotes the centrality of physics and physical measurement to modern science and technology. Advances in Physics: X aims to demonstrate the interconnectivity of physics, meaning the intellectual relationships that exist between one branch of physics and another, as well as the influence of physics across (hence the “X”) traditional boundaries into other disciplines including: Chemistry Materials Science Engineering Biology Medicine
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