Add to ORKGQuasi-normal modes are used to directly characterize defect resonances in composite 1D Photonic Crystal structures. Variational coupled mode theory using QNMs enables quantification of the eigenfrequency splitting in composite structures. Also, variational perturbation analysis of complex eigenfrequencies is addressed
We analyze in depth the eigenmodes symmetry of the vectorial electromagnetic wave equation with disc...
We apply the resonant-state expansion (RSE), a novel rigorous theoretical method in electrodynamics,...
International audienceMost of the resonant photonic structures behave like open cavities for light w...
Quasi-normal modes are used to directly characterize defect resonances in composite 1D Photonic Crys...
We analyze coupled optical defect cavities realized in finite one-dimensional photonic crystals (PC)...
We analyze coupled optical defect cavities realized in finite one-dimensional Photonic Crystals. Vie...
Quasi-Normal Modes are used to characterize transmission resonances in 1D optical defect cavities an...
International audienceIn terms of coupled-mode theory, only two real-valued normalized parameters ar...
Subject of our investigation are resonance phenomena in optical cavities realized as defects in 1D g...
Nonlinear photonic crystals may enable all-optical signal processing. Developed herein is an analyti...
International audienceResonant structures supporting elastic waves attached to a substrate suffer fr...
Photonic crystal waveguides (PhCWG) with intentional defects and unavoidable disorder exhibit high q...
We consider the modal fields and resonance frequencies of composite defects in two-dimensional photo...
The scattering matrix is a fundamental tool to quantitatively describe the properties of resonant sy...
We have experimentally observed the eigenmode splitting due to coupling of the evanescent defect mod...
We analyze in depth the eigenmodes symmetry of the vectorial electromagnetic wave equation with disc...
We apply the resonant-state expansion (RSE), a novel rigorous theoretical method in electrodynamics,...
International audienceMost of the resonant photonic structures behave like open cavities for light w...
Quasi-normal modes are used to directly characterize defect resonances in composite 1D Photonic Crys...
We analyze coupled optical defect cavities realized in finite one-dimensional photonic crystals (PC)...
We analyze coupled optical defect cavities realized in finite one-dimensional Photonic Crystals. Vie...
Quasi-Normal Modes are used to characterize transmission resonances in 1D optical defect cavities an...
International audienceIn terms of coupled-mode theory, only two real-valued normalized parameters ar...
Subject of our investigation are resonance phenomena in optical cavities realized as defects in 1D g...
Nonlinear photonic crystals may enable all-optical signal processing. Developed herein is an analyti...
International audienceResonant structures supporting elastic waves attached to a substrate suffer fr...
Photonic crystal waveguides (PhCWG) with intentional defects and unavoidable disorder exhibit high q...
We consider the modal fields and resonance frequencies of composite defects in two-dimensional photo...
The scattering matrix is a fundamental tool to quantitatively describe the properties of resonant sy...
We have experimentally observed the eigenmode splitting due to coupling of the evanescent defect mod...
We analyze in depth the eigenmodes symmetry of the vectorial electromagnetic wave equation with disc...
We apply the resonant-state expansion (RSE), a novel rigorous theoretical method in electrodynamics,...
International audienceMost of the resonant photonic structures behave like open cavities for light w...