反谐振空芯光纤中的窄带受激拉曼散射和分子调制

Europhysics Letters Pub Date : 2024-07-17 DOI:10.1209/0295-5075/ad6479

Pau Arcos, Arturo Mena, María Sánchez-Hernández, E. Arrospide, G. Aldabaldetreku, M. Illarramendi, J. Zubía, David Novoa

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引用次数: 0

摘要

拉曼散射是一种非弹性过程，光子从分子上反弹，失去能量并发生红移。这种微弱的效应对每种分子都是独一无二的，因此成为光谱学和无标记显微镜等领域的重要工具。激光的发明使受激拉曼散射（SRS）得以实现，通过诱导相干分子振荡，大大提高了效率。然而，由于相互作用体积有限，这种现象需要很高的强度，而反共振光纤（ARF）的出现克服了这一限制，它可以在一个小的中空通道中引导光线进行长距离传播。基于反共振光纤的独特性能，本视角回顾了反共振光纤对基于现代 SRS 的应用所产生的变革性影响，这些应用包括光谱学和材料科学领域的光源和转换器的开发，以及未来量子网络的量子技术，为该领域的未来趋势和不断扩大的视野提供了见解。

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Narrowband stimulated Raman scattering and molecular modulation in anti-resonant hollow-core fibres

Raman scattering is the inelastic process where photons bounce off molecules, losing energy and becoming red-shifted. This weak effect is unique to each molecular species, making it an essential tool in e.g. spectroscopy and label-free microscopy. The invention of the laser enabled a regime of stimulated Raman scattering (SRS), where the efficiency is greatly increased by inducing coherent molecular oscillations. However, this phenomenon required high intensities due to the limited interaction volumes, and this limitation was overcome by the emergence of anti-resonant fibres (ARFs) guiding light in a small hollow channel over long distances. Based on their unique properties, this Perspective reviews the transformative impact of ARFs on modern SRS-based applications ranging from development of light sources and convertors for spectroscopy and materials science, to quantum technologies for the future quantum networks, providing insights into future trends and the expanding horizons of the field.

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Europhysics Letters

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