法布里-佩罗谐振器的时空耦合模式理论及其在线性可变滤波器中的应用

IF 2.9 2区 物理与天体物理 Q2 Physics and Astronomy Physical Review A Pub Date : 2024-08-12 DOI:10.1103/physreva.110.023511
Dmitry A. Bykov, Evgeni A. Bezus, Leonid L. Doskolovich
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引用次数: 0

摘要

耦合模式理论(CMT)是一种广泛应用于描述各种光子结构中共振和特征模式的方法。在这里,我们提出了一种描述共振多层结构的 CMT 理论。特别是,我们重新审视了传统的法布里-佩罗共振器,并从 CMT 时空表述的角度描述了其光学特性。这种表述提供了描述场分布时空演变的偏微分方程,从而推广了传统时空版 CMT。所开发的 CMT 考虑到了所考虑结构的对称性、能量守恒定律、互易性和因果性。考虑到所开发的 CMT 的参数与空间有关,我们将其用于描述线性可变滤波器(LVF)的光学特性。所提出的 CMT 与麦克斯韦方程的严格数值求解结果非常吻合,它准确地再现了当 LVF 的楔角增大时谐振峰的增宽和菲佐条纹的出现。
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Spatiotemporal coupled-mode theory for Fabry-Pérot resonators and its application to linear variable filters
Coupled-mode theory (CMT) is a widely used approach for describing resonances and eigenmodes in various photonic structures. Here, we propose a formulation of the CMT describing resonant multilayer structures. In particular, we revisit the conventional Fabry-Pérot resonator and describe its optical properties from the point of view of the spatiotemporal formulation of the CMT. This formulation provides partial differential equations describing both temporal and spatial evolution of the field distribution, thus generalizing the conventional temporal and spatial versions of the CMT. The developed CMT takes into account the symmetry of the considered structure, energy conservation law, reciprocity, and causality. By considering the parameters of the developed CMT to be spatially dependent, we apply it to describe the optical properties of linear variable filters (LVFs) comprising two Bragg mirrors separated by a wedge-shaped (tapered) layer. In good agreement with the results of the rigorous numerical solution of Maxwell's equations, the proposed CMT accurately reproduces the broadening of the resonant peak and the appearance of Fizeau fringes when increasing the wedge angle of the LVF.
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来源期刊
Physical Review A
Physical Review A 物理-光学
CiteScore
5.40
自引率
24.10%
发文量
0
审稿时长
2.2 months
期刊介绍: Physical Review A (PRA) publishes important developments in the rapidly evolving areas of atomic, molecular, and optical (AMO) physics, quantum information, and related fundamental concepts. PRA covers atomic, molecular, and optical physics, foundations of quantum mechanics, and quantum information, including: -Fundamental concepts -Quantum information -Atomic and molecular structure and dynamics; high-precision measurement -Atomic and molecular collisions and interactions -Atomic and molecular processes in external fields, including interactions with strong fields and short pulses -Matter waves and collective properties of cold atoms and molecules -Quantum optics, physics of lasers, nonlinear optics, and classical optics
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