Microscopic Photoluminescence Study of InAs Single Quantum Dots Grown on (100) GaAs

1 January 1999

journal article
Published by IOP Publishing in Japanese Journal of Applied Physics

Vol. 38 (1S) , 546
https://doi.org/10.1143/jjap.38.546

Abstract

We report ultranarrow (≤60 µeV) photoluminescence (PL) lines originating from single InAs quantum dots (QDs) sandwiched by Al_0.35Ga_0.65As barrier layers, demonstrating their δ-function-like density of states (DOS). The temperature dependence of the full-width at half maximum (FWHM) was studied between 10 and 90 K. It linearly increased with increasing temperature from 40 to 80 K (∼7 µeV/K), suggesting the existence of an excitonic dephasing mechanism. Pure dephasing of excitons due to exciton-phonon interactions in acoustic phonon mode was suggested as a possible mechanism for the PL line broadening.

Keywords

This publication has 15 references indexed in Scilit:

Pure dephasing induced by exciton–phonon interactions in narrow GaAs quantum wells
Solid State Communications, 1998
Temperature dependence of microscopic photoluminescence spectra of quantum dots and quantum wells
Physica E: Low-dimensional Systems and Nanostructures, 1998
Temperature and excitation dependence of photoluminescence line shapein InAs/GaAs quantum-dot structures
Physical Review B, 1997
Microscopic excitation spectroscopy for zero-dimensional quantized states of individual ${In}_{x}$ ${Ga}_{1 - x}$ As/ ${Al}_{y}$ ${Ga}_{1 - y}$ As quantum dots
Physical Review B, 1996
Quantum many-body states of excitons in a small quantum dot
Physical Review B, 1995
Ultranarrow Luminescence Lines from Single Quantum Dots
Physical Review Letters, 1995
Photoluminescence of Single InAs Quantum Dots Obtained by Self-Organized Growth on GaAs
Physical Review Letters, 1994
Electron-phonon interactions and excitonic dephasing in semiconductor nanocrystals
Physical Review Letters, 1993
Intrinsic mechanism for the poor luminescence properties of quantum-box systems
Physical Review B, 1991
Phonon scattering and energy relaxation in two-, one-, and zero-dimensional electron gases
Physical Review B, 1990