We present theoretical studies of condensation of indirect excitons in a trap. Our model quantifies the effect of screening of the trap potential by indirect excitons on exciton condensation. The theoretical studies are applied to a system of indirect excitons in a GaAs/AlGaAs coupled quantum well structure in a diamond-shaped electrostatic trap where exciton condensation was studied in earlier experiments. The estimated condensation temperature of the indirect excitons in the trap reaches hundreds of milliKelvins
Understanding the interactions of excitons has been central to the development of technolo-gies such...
Bound electron–hole pairs—excitons—are light Bose particles with a mass comparable to or smaller tha...
This dissertation consists of a theoretical investigation into the transport and coherence propertie...
We present theoretical studies of condensation of indirect excitons in a trap. Our model quantifies ...
Indirect excitons in coupled quantum wells form a unique system for both development of novel optoel...
Spatially indirect excitons are optically generated composite bosons with a radiative lifetime suffi...
Abstract: The photoluminescence (PL) of excitons confined in an electric field tunable coupled AlAs/...
Bound electron–hole pairs—excitons—are Bose particles with small mass. Exciton Bose–Einstein condens...
This dissertation explores studies of transport of indirect excitons (bosonic quasiparticles compose...
The study of excitons in semiconductors is a rich field that has seen numerous beautiful development...
Microscopic quantum phenomena such as interference or phase coherence between different quantum stat...
In GaAs/AlGaAs coupled quantum wells, strain-induced traps may be used to confine excitons in in-pla...
This thesis comprises a theoretical study of the dynamics of indirect excitons in coupled quantum we...
Indirect excitons are bosonic quasiparticles composed of an electron and a hole confined to spatiall...
The photoluminescence (PL) of excitons confined in an electric field tunable coupled AlAs/GaAs quant...
Understanding the interactions of excitons has been central to the development of technolo-gies such...
Bound electron–hole pairs—excitons—are light Bose particles with a mass comparable to or smaller tha...
This dissertation consists of a theoretical investigation into the transport and coherence propertie...
We present theoretical studies of condensation of indirect excitons in a trap. Our model quantifies ...
Indirect excitons in coupled quantum wells form a unique system for both development of novel optoel...
Spatially indirect excitons are optically generated composite bosons with a radiative lifetime suffi...
Abstract: The photoluminescence (PL) of excitons confined in an electric field tunable coupled AlAs/...
Bound electron–hole pairs—excitons—are Bose particles with small mass. Exciton Bose–Einstein condens...
This dissertation explores studies of transport of indirect excitons (bosonic quasiparticles compose...
The study of excitons in semiconductors is a rich field that has seen numerous beautiful development...
Microscopic quantum phenomena such as interference or phase coherence between different quantum stat...
In GaAs/AlGaAs coupled quantum wells, strain-induced traps may be used to confine excitons in in-pla...
This thesis comprises a theoretical study of the dynamics of indirect excitons in coupled quantum we...
Indirect excitons are bosonic quasiparticles composed of an electron and a hole confined to spatiall...
The photoluminescence (PL) of excitons confined in an electric field tunable coupled AlAs/GaAs quant...
Understanding the interactions of excitons has been central to the development of technolo-gies such...
Bound electron–hole pairs—excitons—are light Bose particles with a mass comparable to or smaller tha...
This dissertation consists of a theoretical investigation into the transport and coherence propertie...