Mixed Fields Formulation for Electromagnetic Waves Confined in Dielectric Rings
Mixed Fields Formulation for Electromagnetic Waves Confined in Dielectric Rings
We present an easy-to-implement numerical method for analyzing electromagnetic wave propagation in dielectric rings. Our approach employs a finite-difference-based solver in cylindrical coordinates, solving a mixed electric-magnetic field formulation to accurately enforce boundary conditions and compute resonant modes. The method avoids geometric transformations; instead, it directly discretizes the Helmholtz wave equation in cylindrical coordinates and solves the resulting generalized eigenvalue problem. We validate our model against commercial solvers for various structures, including a Si3N4 ring embedded in SiO2, a ring on a thin-film-coated substrate, and a torus, achieving agreement in effective refractive indices within 0.3%. The formulation accurately captures field confinement, curvature effects, and dispersion, enabling precise determination of propagation constants and mode profiles. As an application, we model optical frequency comb generation in a high-Q microresonator, predicting a free spectral range of 99.6 GHz and a loaded quality factor of 1.6 million, corroborated by experimental measurements.
Ergun Simsek、Alioune Niang、Raonaqul Islam、Logan Courtright、Gary Carter、Curtis R. Menyuk
电工基础理论
Ergun Simsek,Alioune Niang,Raonaqul Islam,Logan Courtright,Gary Carter,Curtis R. Menyuk.Mixed Fields Formulation for Electromagnetic Waves Confined in Dielectric Rings[EB/OL].(2025-03-22)[2025-04-29].https://arxiv.org/abs/2503.17745.点此复制
评论