A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structures, especially the influence of dielectric geometry on the relative intensities of guided and radiation modes and on polarization, is presented. We first discuss a relatively simple three-layer case, and subsequently a technologically more interesting five-layer structure that has been proposed for a high-power laser. The expression for the partial as well as total, emission rates is derived within a broader framework of coupled Heisenberg equations of motion for charge carriers and the quantized electromagnetic field. Thereby, the explicit mode decomposition of the Green tensor is avoided. Still, the beta factor for individual guided modes, ...
The spontaneous emission rate from an In0.2Ga0.8As quantum well in a cylindrical dielectric cavity w...
After publication of the authors' first use of the optical microscopic cavity (microcavity) in the i...
After publication of the authors' first use of the optical microscopic cavity (microcavity) in the i...
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structur...
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structur...
Abstract—A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer...
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structur...
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structur...
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structur...
This paper is a theoretical one dealing with spontaneous emission in one-dimensional photonic struct...
This paper is a theoretical one dealing with spontaneous emission in one-dimensional photonic struct...
We theoretically investigate the multipolar effects on the dipole-forbidden transitions of a semicon...
We theoretically investigate the multipolar effects on the dipole-forbidden transitions of a semicon...
Control over spontaneous emission rate is important for improving efficiency in different semiconduc...
A quantum-electrodynamic theory of spontaneous emission in presence of dielectrics and conductors is...
The spontaneous emission rate from an In0.2Ga0.8As quantum well in a cylindrical dielectric cavity w...
After publication of the authors' first use of the optical microscopic cavity (microcavity) in the i...
After publication of the authors' first use of the optical microscopic cavity (microcavity) in the i...
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structur...
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structur...
Abstract—A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer...
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structur...
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structur...
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structur...
This paper is a theoretical one dealing with spontaneous emission in one-dimensional photonic struct...
This paper is a theoretical one dealing with spontaneous emission in one-dimensional photonic struct...
We theoretically investigate the multipolar effects on the dipole-forbidden transitions of a semicon...
We theoretically investigate the multipolar effects on the dipole-forbidden transitions of a semicon...
Control over spontaneous emission rate is important for improving efficiency in different semiconduc...
A quantum-electrodynamic theory of spontaneous emission in presence of dielectrics and conductors is...
The spontaneous emission rate from an In0.2Ga0.8As quantum well in a cylindrical dielectric cavity w...
After publication of the authors' first use of the optical microscopic cavity (microcavity) in the i...
After publication of the authors' first use of the optical microscopic cavity (microcavity) in the i...