Light-induced spectral diffusion in single self-assembled quantum dots

15 February 2000

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 61 (8) , R5086-R5089
https://doi.org/10.1103/physrevb.61.r5086

Abstract

Small ensembles of

{In}_{0.55} {Al}_{0.45} As

self-assembled quantum dots have been studied at low temperatures using near-field scanning optical microscopy. We observe spectral diffusion in individual quantum dot luminescence lines. The phenomenon increases in magnitude with optical power density, but is not visible at low powers. We believe the spectral diffusion to be caused by long time-scale trapping and untrapping of charges created by photoionization or thermal ionization in the immediate vicinity of the quantum dots.

This publication has 27 references indexed in Scilit:

Spectral diffusion within the porous silicon emission wavelength range on the nanosecond to millisecond time scale
Journal of Applied Physics, 1997
Photoluminescence Spectroscopy of Single CdSe Nanocrystallite Quantum Dots
Physical Review Letters, 1996
Direct vibrational energy transfer in zeolites
The Journal of Chemical Physics, 1996
Thermally induced spectral diffusion for photoautomerization systems in polymer matrices
Physical Review B, 1994
MBE and MOCVD growth and properties of self-assembling quantum dot arrays in III-V semiconductor structures
Superlattices and Microstructures, 1994
Spectral diffusion in liquids
The Journal of Chemical Physics, 1992
Conformational relaxation of a low-temperature protein as probed by photochemical hole burning. Horseradish peroxidase
Biophysical Journal, 1991
Fluorescence spectroscopy and spectral diffusion of single impurity molecules in a crystal
Nature, 1991
Infrared spectral hole burning of sulfur-hydrogen deep donors in a Si: Ge crystal
Physical Review B, 1987
Time-Resolved Fluorescence Line-Narrowing Studies in La $F_{3}$ : $\Pr^{3 +}$
Physical Review Letters, 1975