Excitation-induced energy shifts in the optical gain spectra of InN quantum dots

M. Lorke; J. Seebeck; P. Gartner; F. Jahnke; S. Schulz

doi:10.1063/1.3213543

Excitation-induced energy shifts in the optical gain spectra of InN quantum dots

M. Lorke
, J. Seebeck
, P. Gartner
, F. Jahnke
, S. Schulz

University of Bremen

Research output: Contribution to journal › Article › peer-review

Abstract

A microscopic theory for the optical absorption and gain spectra of InN quantum-dot systems is used to study the combined influence of material properties and interaction-induced effects. Atomistic tight-binding calculations for the single-particle properties of the self-assembled quantum-dot and wetting-layer system are used in conjunction with a many-body description of Coulomb interaction and carrier phonon interaction. We analyze the carrier-density and temperature dependence of strong excitation-induced energy shifts of the dipole-allowed quantum-dot transitions.

Original language	English
Article number	081108
Journal	Applied Physics Letters
Volume	95
Issue number	8
DOIs	https://doi.org/10.1063/1.3213543
Publication status	Published - 2009

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10.1063/1.3213543

https://hdl.handle.net/10468/4355Licence: CC BY-NC-ND

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abstract = "A microscopic theory for the optical absorption and gain spectra of InN quantum-dot systems is used to study the combined influence of material properties and interaction-induced effects. Atomistic tight-binding calculations for the single-particle properties of the self-assembled quantum-dot and wetting-layer system are used in conjunction with a many-body description of Coulomb interaction and carrier phonon interaction. We analyze the carrier-density and temperature dependence of strong excitation-induced energy shifts of the dipole-allowed quantum-dot transitions.",

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AU - Schulz, S.

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AB - A microscopic theory for the optical absorption and gain spectra of InN quantum-dot systems is used to study the combined influence of material properties and interaction-induced effects. Atomistic tight-binding calculations for the single-particle properties of the self-assembled quantum-dot and wetting-layer system are used in conjunction with a many-body description of Coulomb interaction and carrier phonon interaction. We analyze the carrier-density and temperature dependence of strong excitation-induced energy shifts of the dipole-allowed quantum-dot transitions.

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Excitation-induced energy shifts in the optical gain spectra of InN quantum dots

Abstract

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