光子晶体光纤中的损耗模共振

IF 1.9 4区 物理与天体物理 Q3 OPTICS
Mauricio Salazar Sicacha, Vladimir P. Minkovich, Alexander B. Sotsky, Artur V. Shilov, Luidmila I. Sotskaya, Evgeny A. Chudakov
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引用次数: 0

摘要

从理论上研究了一种特殊光子晶体光纤(PCF)中基模与在光纤包层表面沉积薄膜吸收涂层的相互作用对PCF光传输的影响。结果表明,传输具有多峰谱,这是由涂层对PCF基本模式能量的共振捕获决定的。在某些情况下,这种捕获可以解释为涂层的基本核心模式和泄漏模式之间的共振耦合,或者位于PCF空气通道和涂层之间的基本PCF模式和包层模式之间的共振耦合。举例说明了利用这种效应来研制折射率或压力光纤传感器,以及检测沉积在与空气接触的涂层表面的纳米级氨分子吸附层。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lossy mode resonances in photonic crystal fibers

The interaction effect of the fundamental mode in a special photonic crystal fiber (PCF) with a thin-film absorbing coating deposited on a surface of a fiber cladding on the optical transmission of the PCF is theoretically studied. It is shown that the transmission has a multi-peak spectrum that is determined by the resonance capture of the fundamental PCF mode energy by the coating. In some cases, this capture is explained by a resonance coupling between the fundamental core mode and leaky modes of the coating, or between the fundamental PCF mode and cladding modes located between PCF air channels and the coating. Examples are presented of using this effect to develop fiber-optic sensors of refractive index or pressure, and to sense a nanoscale adsorption layer of ammonia molecules deposited on a coating surface contacting air.

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来源期刊
CiteScore
2.40
自引率
0.00%
发文量
12
审稿时长
5 weeks
期刊介绍: Rapid progress in optics and photonics has broadened its application enormously into many branches, including information and communication technology, security, sensing, bio- and medical sciences, healthcare and chemistry. Recent achievements in other sciences have allowed continual discovery of new natural mysteries and formulation of challenging goals for optics that require further development of modern concepts and running fundamental research. The Journal of the European Optical Society – Rapid Publications (JEOS:RP) aims to tackle all of the aforementioned points in the form of prompt, scientific, high-quality communications that report on the latest findings. It presents emerging technologies and outlining strategic goals in optics and photonics. The journal covers both fundamental and applied topics, including but not limited to: Classical and quantum optics Light/matter interaction Optical communication Micro- and nanooptics Nonlinear optical phenomena Optical materials Optical metrology Optical spectroscopy Colour research Nano and metamaterials Modern photonics technology Optical engineering, design and instrumentation Optical applications in bio-physics and medicine Interdisciplinary fields using photonics, such as in energy, climate change and cultural heritage The journal aims to provide readers with recent and important achievements in optics/photonics and, as its name suggests, it strives for the shortest possible publication time.
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