Optical properties of self-organized wurtzite InN/GaN quantum dots: A combined atomistic tight-binding and full configuration interaction calculation

N. Baer; S. Schulz; S. Schumacher; P. Gartner; G. Czycholl; F. Jahnke

doi:10.1063/1.2139621

Optical properties of self-organized wurtzite InN/GaN quantum dots: A combined atomistic tight-binding and full configuration interaction calculation

N. Baer
, S. Schulz
, S. Schumacher
, P. Gartner
, G. Czycholl
, F. Jahnke

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

Abstract

In this work, we investigate the electronic and optical properties of self-assembled InNGaN quantum dots. The one-particle states of the low-dimensional heterostructures are provided by a tight-binding model that fully includes the wurtzite crystal structure on an atomistic level. Optical dipole and Coulomb matrix elements are calculated from these one-particle wave functions and serve as an input for full configuration interaction calculations. We present multiexciton emission spectra and discuss in detail how Coulomb correlations and oscillator strengths are changed by the piezoelectric fields present in the structure. Vanishing exciton and biexciton ground state emission for small lens-shaped dots is predicted.

Original language	English
Article number	231114
Pages (from-to)	1-3
Number of pages	3
Journal	Applied Physics Letters
Volume	87
Issue number	23
DOIs	https://doi.org/10.1063/1.2139621
Publication status	Published - 2005
Externally published	Yes

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10.1063/1.2139621

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title = "Optical properties of self-organized wurtzite InN/GaN quantum dots: A combined atomistic tight-binding and full configuration interaction calculation",

abstract = "In this work, we investigate the electronic and optical properties of self-assembled InNGaN quantum dots. The one-particle states of the low-dimensional heterostructures are provided by a tight-binding model that fully includes the wurtzite crystal structure on an atomistic level. Optical dipole and Coulomb matrix elements are calculated from these one-particle wave functions and serve as an input for full configuration interaction calculations. We present multiexciton emission spectra and discuss in detail how Coulomb correlations and oscillator strengths are changed by the piezoelectric fields present in the structure. Vanishing exciton and biexciton ground state emission for small lens-shaped dots is predicted.",

author = "N. Baer and S. Schulz and S. Schumacher and P. Gartner and G. Czycholl and F. Jahnke",

year = "2005",

doi = "10.1063/1.2139621",

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T2 - A combined atomistic tight-binding and full configuration interaction calculation

AU - Baer, N.

AU - Schulz, S.

AU - Schumacher, S.

AU - Gartner, P.

AU - Czycholl, G.

AU - Jahnke, F.

PY - 2005

Y1 - 2005

N2 - In this work, we investigate the electronic and optical properties of self-assembled InNGaN quantum dots. The one-particle states of the low-dimensional heterostructures are provided by a tight-binding model that fully includes the wurtzite crystal structure on an atomistic level. Optical dipole and Coulomb matrix elements are calculated from these one-particle wave functions and serve as an input for full configuration interaction calculations. We present multiexciton emission spectra and discuss in detail how Coulomb correlations and oscillator strengths are changed by the piezoelectric fields present in the structure. Vanishing exciton and biexciton ground state emission for small lens-shaped dots is predicted.

AB - In this work, we investigate the electronic and optical properties of self-assembled InNGaN quantum dots. The one-particle states of the low-dimensional heterostructures are provided by a tight-binding model that fully includes the wurtzite crystal structure on an atomistic level. Optical dipole and Coulomb matrix elements are calculated from these one-particle wave functions and serve as an input for full configuration interaction calculations. We present multiexciton emission spectra and discuss in detail how Coulomb correlations and oscillator strengths are changed by the piezoelectric fields present in the structure. Vanishing exciton and biexciton ground state emission for small lens-shaped dots is predicted.

UR - https://www.scopus.com/pages/publications/28444433011

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DO - 10.1063/1.2139621

M3 - Article

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SN - 0003-6951

VL - 87

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JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 23

M1 - 231114

ER -

Optical properties of self-organized wurtzite InN/GaN quantum dots: A combined atomistic tight-binding and full configuration interaction calculation

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