We give conclusive experimental evidence that spin‐dependent exciton–exciton interaction processes can be altered by directly modifying the spatial exciton structure applying an electric field. The previously observed energy splitting in spin‐polarized, dense exciton gases can be varied by the electric field from a maximum of 4 meV to 0 meV. On the basis of an earlier developed theoretical model it is seen that inter‐exciton scattering processes dominating at zero field are quenched and others are enhanced on increasing the field strength.
Beschreibung
Spin‐Dependent Exciton–Exciton Interaction in Quantum Wells under an Electric Field - Aichmayr - 1999 - physica status solidi (b) - Wiley Online Library
%0 Journal Article
%1 noauthororeditor
%A Aichmayer, G
%A Jetter, M.
%A Vina, L.
%A Dickerson, J.H.
%A Camino, F.
%A Mendez, E.O.
%D 1999
%J Wiley Online Library
%K ihfg
%R https://doi.org/10.1002/(SICI)1521-3951(199909)215:1<223::AID-PSSB223>3.0.CO;2-3
%T Spin-Dependent Exciton-Exciton Interaction in Quantum Wells under an Electric Field
%X We give conclusive experimental evidence that spin‐dependent exciton–exciton interaction processes can be altered by directly modifying the spatial exciton structure applying an electric field. The previously observed energy splitting in spin‐polarized, dense exciton gases can be varied by the electric field from a maximum of 4 meV to 0 meV. On the basis of an earlier developed theoretical model it is seen that inter‐exciton scattering processes dominating at zero field are quenched and others are enhanced on increasing the field strength.
@article{noauthororeditor,
abstract = {We give conclusive experimental evidence that spin‐dependent exciton–exciton interaction processes can be altered by directly modifying the spatial exciton structure applying an electric field. The previously observed energy splitting in spin‐polarized, dense exciton gases can be varied by the electric field from a maximum of 4 meV to 0 meV. On the basis of an earlier developed theoretical model it is seen that inter‐exciton scattering processes dominating at zero field are quenched and others are enhanced on increasing the field strength.},
added-at = {2019-08-23T10:23:50.000+0200},
author = {Aichmayer, G and Jetter, M. and Vina, L. and Dickerson, J.H. and Camino, F. and Mendez, E.O.},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/287a121fcc485f4d478cd12ac6b80e385/renerehwagen},
description = {Spin‐Dependent Exciton–Exciton Interaction in Quantum Wells under an Electric Field - Aichmayr - 1999 - physica status solidi (b) - Wiley Online Library},
doi = {https://doi.org/10.1002/(SICI)1521-3951(199909)215:1<223::AID-PSSB223>3.0.CO;2-3},
interhash = {2bcb9718923ca58e9494be8b3e548ea0},
intrahash = {87a121fcc485f4d478cd12ac6b80e385},
journal = { Wiley Online Library },
keywords = {ihfg},
timestamp = {2019-08-23T08:23:50.000+0200},
title = {Spin-Dependent Exciton-Exciton Interaction in Quantum Wells under an Electric Field},
year = 1999
}