Quasinormal modes expansions for nanoresonators made of absorbing dielectric materials: study of the role of static modes.
TLDR
In this article, it was shown that the importance of static modes is not just formal but also physical in the case of absorbing dielectric materials, eigenmodes with zero eigenfrequency (static modes) play a key role in the modal formalism.Abstract:
The interaction of light with photonic resonators is determined by the eigenmodes of the system. Modal theories based on quasinormal modes provide a natural tool to calculate and understand light scattering by nanoresonators. We show that, in the case of resonators made of absorbing dielectric materials, eigenmodes with zero eigenfrequency (static modes) play a key role in the modal formalism. The excitation of static modes builds a non-resonant contribution to the modal expansion of the scattered field. This non-resonant term plays a crucial physical role since it largely contributes to the off-resonance signal to which resonances are added in amplitude, possibly leading to interference phenomena and Fano resonances. By considering light scattering by a silicon nanosphere, we quantify the impact of static modes. This study shows that the importance of static modes is not just formal. Static modes are of prime importance in an expansion truncated to only a few modes.read more
Citations
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Normalization, orthogonality, and completeness of quasinormal modes of open systems: the case of electromagnetism [Invited]
TL;DR: In this paper , the authors address three fundamental concepts in relation to the representation of the scattered field as a superposition of the excited quasinormal modes (QNMs): normalization, orthogonality, and completeness.
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Efficient hybrid method for the modal analysis of optical microcavities and nanoresonators.
Tong Wu,Denis Arrivault,Marc Duruflé,Alexandre Gras,Felix Binkowski,Sven Burger,Wei Yan,Philippe Lalanne +7 more
TL;DR: This work proposes a novel hybrid method for accurately and efficiently analyzing microcavities and nanoresonators that combines the marked spirit of quasinormal mode expansion approaches with the renowned strengths of real-frequency simulations, e.g., accuracy and flexibility.
Journal ArticleDOI
Modal analysis of electromagnetic resonators: User guide for the MAN program
TL;DR: In this paper , the authors present MAN (Modal Analysis of Nanoresonators), a software with many open scripts that computes and normalizes the quasinormal modes of virtually any electromagnetic resonator, be it composed of dispersive, anisotropic, or non-reciprocal materials.
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Spectral expansions of open and dispersive optical systems: Gaussian regularization and convergence
TL;DR: In this article, a multipolar Gaussian regularization method for RS inner products is introduced in the context of light scattering and shown to provide analytical results for the crucial RS inner product integrals in the problematic region exterior to the scattering system.
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Perfect Nonradiating Modes in Dielectric Nanofiber with Elliptical Cross-Section
Vasily Klimov,Dmitry V. Guzatov +1 more
TL;DR: In this paper , the existence of infinite number of perfect nonradiating modes in elliptical nanofibers is demonstrated and Dispersion laws are found for TM and TE perfect modes in circular and elliptical waveguides with an arbitrary eccentricity.
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