对连续体中由法布里-帕姆罗束缚态控制的共振的操纵

IF 11.9 1区物理与天体物理 Q1 PHYSICS, APPLIED

Applied physics reviews Pub Date : 2025-03-24 DOI:10.1063/5.0253100

Xiaofeng Rao, Tao He, Chengfeng Li, Xinshang Niu, Chao Feng, Siyu Dong, Jingyuan Zhu, Zeyong Wei, Yuzhi Shi, Jifeng Qu, Zhanshan Wang, Xinbin Cheng

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引用次数: 0

摘要

连续介质中的束缚态（BICs）已成为光学和光子学领域的研究热点，为实现极端场局域化和增强光-物质相互作用提供了新的范式。本文首次建立了连续介质中fabry - p束缚态（FP-BIC）的内在演化规律，揭示了Q因子与相位/频率失谐的平方和非辐射衰减率成反比，从而实现了FP-BIC共振的定向工程。我们提出了一种全介电多层膜超表面来创建光学谐振器及其完美镜像对应物，诱导fp - bic并验证结论。我们通过实验证明了Q因子随频率失谐的演变，在可见光中实现了最大Q因子610。我们的工作为bic提供了新的见解，有望激发奇异的现象和应用。

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Manipulation of resonances governed by Fabry–Pérot bound states in the continuum

Bound states in the continuum (BICs) have emerged as research hotspots in optics and photonics, offering a new paradigm for achieving extreme field localization and enhancing light–matter interactions. Here, we establish for the first time the intrinsic evolution laws of Fabry–Pérot bound states in the continuum (FP-BICs), revealing that the Q factor is inversely proportional to the square of phase/frequency detuning and to the nonradiative decay rate, enabling directional engineering of FP-BIC resonances. We propose an all-dielectric multilayer film metasurface to create an optical resonator and its perfectly mirrored counterpart, inducing FP-BICs and validating the conclusions. We experimentally demonstrated the evolution of the Q factor with frequency detuning, achieving a maximum Q factor of 610 in the visible. Our work offers novel insights into BICs, promising to inspire exotic phenomena and applications.

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来源期刊

Applied physics reviews PHYSICS, APPLIED-

CiteScore

22.50

自引率

2.00%

发文量

113

审稿时长

2 months

期刊介绍： Applied Physics Reviews (APR) is a journal featuring articles on critical topics in experimental or theoretical research in applied physics and applications of physics to other scientific and engineering branches. The publication includes two main types of articles: Original Research: These articles report on high-quality, novel research studies that are of significant interest to the applied physics community. Reviews: Review articles in APR can either be authoritative and comprehensive assessments of established areas of applied physics or short, timely reviews of recent advances in established fields or emerging areas of applied physics.