Add to ORKGQuasi-Normal Modes are used to characterize transmission resonances in 1D optical defect cavities and the related field approximations. Using a mirror field and the relevant QNM, a variational principle permits to represent the field and the spectral transmission close to resonances
International audienceResonant structures supporting elastic waves attached to a substrate suffer fr...
An extension of the second quantization scheme based on the quasinormal-modes theory to one-dimensio...
Suspended-membrane 19-missing-hole microcavities in triangular lattice photonic crystals are numeric...
Subject of our investigation are resonance phenomena in optical cavities realized as defects in 1D g...
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...
For one-dimensional optical structures consisting of gratings surrounding a defect region, optical f...
Quasi-normal modes are used to directly characterize defect resonances in composite 1D Photonic Crys...
We use the "quasi-normal-modes" (QNM) approach for discussing the transmission properties of double-...
The electromagnetic field in an optical open cavity is analyzed in the framework of the Quasi-Normal...
The definition of natural modes for confined structures is one of the central problems in physics, a...
Many nanophotonic devices rely on the excitation of photonic resonances to enhance light-matter inte...
International audienceA fundamental feature of the quasi-normal modes (QNMs), which describe light i...
In this article, localized defect modes in one-dimensional optically induced photonic lattices are s...
International audienceMost of the resonant photonic structures behave like open cavities for light w...
International audienceResonant structures supporting elastic waves attached to a substrate suffer fr...
An extension of the second quantization scheme based on the quasinormal-modes theory to one-dimensio...
Suspended-membrane 19-missing-hole microcavities in triangular lattice photonic crystals are numeric...
Subject of our investigation are resonance phenomena in optical cavities realized as defects in 1D g...
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...
For one-dimensional optical structures consisting of gratings surrounding a defect region, optical f...
Quasi-normal modes are used to directly characterize defect resonances in composite 1D Photonic Crys...
We use the "quasi-normal-modes" (QNM) approach for discussing the transmission properties of double-...
The electromagnetic field in an optical open cavity is analyzed in the framework of the Quasi-Normal...
The definition of natural modes for confined structures is one of the central problems in physics, a...
Many nanophotonic devices rely on the excitation of photonic resonances to enhance light-matter inte...
International audienceA fundamental feature of the quasi-normal modes (QNMs), which describe light i...
In this article, localized defect modes in one-dimensional optically induced photonic lattices are s...
International audienceMost of the resonant photonic structures behave like open cavities for light w...
International audienceResonant structures supporting elastic waves attached to a substrate suffer fr...
An extension of the second quantization scheme based on the quasinormal-modes theory to one-dimensio...
Suspended-membrane 19-missing-hole microcavities in triangular lattice photonic crystals are numeric...