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Journal article · Preprint article

Proposed Quenching of Phonon-Induced Processes in Photoexcited Quantum Dots due to Electron-Hole Asymmetries

By Nysteen, Anders1,2; Nielsen, Per Kær1,2; Mørk, Jesper1,2

From

Department of Photonics Engineering, Technical University of Denmark1

Quantum and Laser Photonics, Department of Photonics Engineering, Technical University of Denmark2

Differences in the confinement of electrons and holes in quantum dots are shown to profoundly impact the magnitude of scattering with acoustic phonons. Using an extensive model that includes the non-Markovian nature of the phonon reservoir, we show how the effect may be addressed by photoluminescence excitation spectroscopy of a single quantum dot.

We also investigate the implications for cavity QED, i.e., a coupled quantum dot-cavity system, and demonstrate that the phonon scattering may be strongly quenched. The quenching is explained by a balancing between the deformation potential interaction strengths and the carrier confinement and depends on the quantum dot shape.

Numerical examples suggest a route towards engineering the phonon scattering.

Language: English
Year: 2013
Pages: 087401
ISSN: 10797114 and 00319007
Types: Journal article and Preprint article
DOI: 10.1103/PhysRevLett.110.087401
ORCIDs: Mørk, Jesper
Keywords

cond-mat.mes-hall quant-ph

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