In this work we study theoretically the axial spectral asymmetry of a 1D hybrid (isotropic and anisotropic) photonic crystal for photon energies close to the electronic energy gaps of semiconductors (excitons). The non-normal optical properties of these resonant non-magnetic photonic crystals will be computed in the framework of exciton-polariton, by self-consistent solutions of the Maxwell-Schrödinger equations in the effective mass approximation. The tailoring of the hybrid photonic crystals, performed by implementing a simple two-layer "minimum model", and novel optical properties, due to the unidirectional polariton propagation, will be discussed.
Unidirectional oblique propagation of exciton-polaritons in hybrid photonic crystals
Tomassini N.
2017
Abstract
In this work we study theoretically the axial spectral asymmetry of a 1D hybrid (isotropic and anisotropic) photonic crystal for photon energies close to the electronic energy gaps of semiconductors (excitons). The non-normal optical properties of these resonant non-magnetic photonic crystals will be computed in the framework of exciton-polariton, by self-consistent solutions of the Maxwell-Schrödinger equations in the effective mass approximation. The tailoring of the hybrid photonic crystals, performed by implementing a simple two-layer "minimum model", and novel optical properties, due to the unidirectional polariton propagation, will be discussed.| File | Dimensione | Formato | |
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Descrizione: Unidirectional oblique propagation of exciton-polaritons in hybrid photonic crystals
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