Publication detail
Volume dependence of excitonic fine structure splitting in geometrically similar quantum dots
HUO, Y. KŘÁPEK, V. RASTELLI, A. SCHMIDT, O.
Original Title
Volume dependence of excitonic fine structure splitting in geometrically similar quantum dots
Type
journal article in Web of Science
Language
English
Original Abstract
We investigate the fine structure splitting (FSS) of excitons confined in strain-free, highly symmetric GaAs/AlGaAs quantum dots (QDs) as a function of size. QDs with similar geometry are created by filling nanoholes on an AlGaAs surface with different amounts of GaAs. In turn, nanoholes of regular reversed-cone shape are obtained by Al-droplet etching of an AlGaAs layer. The resulting QDs have high optical quality, as witnessed by emission linewidths smaller than 20 ueV under nonresonant excitation. The average FSS decreases from 12.5 +- 6.4 to 3.6 +- 1.7 ueV as the QD height increases from 5.4 +- 0.3 to 8.0 +- 0.2 nm, following the expected 1/volume dependence. Theoretical calculations using atomic force microscopy data of QD structures as input show that the geometrical similarity of QDs is reflected in invariant aspect ratio and lateral elongation of the wave functions and reproduce the experimental FSS energies.
Keywords
Quantuum dots; Fine structure; Excitons
Authors
HUO, Y.; KŘÁPEK, V.; RASTELLI, A.; SCHMIDT, O.
RIV year
2014
Released
30. 7. 2014
ISBN
1098-0121
Periodical
PHYSICAL REVIEW B
Year of study
90
Number
4
State
United States of America
Pages from
041304-1
Pages to
041304-5
Pages count
5