Add to ORKGThis paper presents a direct comparison and contrast of strong light coupling with either interband or intersubband excitations in semiconductors. The approach is based on analytical expressions obtained after a series of systematic approximations starting from Nonequilibrium Greens Functions and Semiconductor Bloch Equations. Numerical results for III-V quantum wells embedded in microcavities are presented
In this thesis the electronic and optical properties of confined and unconfined excitons in semicond...
The valence-band structure of a semiconductor quantum well is calculated based on the multiband effe...
In cavity quantum electrodynamics, strong light–matter coupling is normally observed between a photo...
This paper demonstrates that the coupling between light and intersubband excitations in semiconducto...
This paper summarizes the main steps of the derivation of a set of simple analytical expressions obt...
This paper demonstrates that the coupling between light and intersubband excitations in semiconducto...
A nonequilibrium Green's functions approach is presented for the consistent computation of semicondu...
This paper presents a numerical study of the dependence of the coupling between light and intersubba...
In this paper, the combined influence of Coulomb and bandstructure effects are analysed in the inter...
In this thesis we study electronic and optical properties of GaAs-AlGaAs semiconductors quantum well...
Optical interband excitonic absorption of semiconductor quantum wells (QW's) driven by a coherent pu...
We theoretically study the absorption in grating coupled quantum wells in a cavity. We describe the ...
The research work presented in this thesis is focused on the study of the optoelectronic coupling be...
Abstract. We have designed and successfully fabricated an AlAs/AlGaAs microcavity resonator tuned to...
In this thesis the electronic and optical properties of confined and unconfined excitons in semicond...
In this thesis the electronic and optical properties of confined and unconfined excitons in semicond...
The valence-band structure of a semiconductor quantum well is calculated based on the multiband effe...
In cavity quantum electrodynamics, strong light–matter coupling is normally observed between a photo...
This paper demonstrates that the coupling between light and intersubband excitations in semiconducto...
This paper summarizes the main steps of the derivation of a set of simple analytical expressions obt...
This paper demonstrates that the coupling between light and intersubband excitations in semiconducto...
A nonequilibrium Green's functions approach is presented for the consistent computation of semicondu...
This paper presents a numerical study of the dependence of the coupling between light and intersubba...
In this paper, the combined influence of Coulomb and bandstructure effects are analysed in the inter...
In this thesis we study electronic and optical properties of GaAs-AlGaAs semiconductors quantum well...
Optical interband excitonic absorption of semiconductor quantum wells (QW's) driven by a coherent pu...
We theoretically study the absorption in grating coupled quantum wells in a cavity. We describe the ...
The research work presented in this thesis is focused on the study of the optoelectronic coupling be...
Abstract. We have designed and successfully fabricated an AlAs/AlGaAs microcavity resonator tuned to...
In this thesis the electronic and optical properties of confined and unconfined excitons in semicond...
In this thesis the electronic and optical properties of confined and unconfined excitons in semicond...
The valence-band structure of a semiconductor quantum well is calculated based on the multiband effe...
In cavity quantum electrodynamics, strong light–matter coupling is normally observed between a photo...