Aharonov-Bohm signature for neutral excitons in type-II quantum dot
  ensembles

A. Fuhrer; A. O. Govorov; A. B. Kalameǐtsev; A. B. Kalameǐtsev; A. O. Govorov; A. V. Chaplik; A. V. Chaplik; B. L. Al’tshuler; B. L. Al’tshuler; C. J.  B. Ford; E. Ribeiro; E. Ribeiro; F. Hatami; G. Medeiros-Ribeiro; L. R. Wilson; M. Büttiker; M. Hayne; M. Peshkin; M. K. K. Nakaema; M. V. Berry; P. Schittenhelm; R. D. Parks; R. L. Maltez; S. E. Ulloa; V. Fock; W. Carvalho; Z. Xu

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Aharonov-Bohm signature for neutral excitons in type-II quantum dot ensembles

Authors: A. Fuhrer
A. O. Govorov
A. B. Kalameǐtsev
A. B. Kalameǐtsev
A. O. Govorov
A. V. Chaplik
A. V. Chaplik
B. L. Al’tshuler
B. L. Al’tshuler
C. J. B. Ford
E. Ribeiro
E. Ribeiro
F. Hatami
G. Medeiros-Ribeiro
L. R. Wilson
M. Büttiker
M. Hayne
M. Peshkin
M. K. K. Nakaema
M. V. Berry
P. Schittenhelm
R. D. Parks
R. L. Maltez
S. E. Ulloa
V. Fock
W. Carvalho
Z. Xu
Publication date: 17 December 2003
Publisher: 'American Physical Society (APS)'
Doi

Abstract

It is commonly believed that the Aharonov-Bohm (AB) effect is a typical feature of the motion of a charged particle interacting with the electromagnetic vector potential. Here we present a magnetophotoluminescence study of type-II InP/GaAs self-assembled quantum dots, unambiguously revealing the Aharonov-Bohm-type oscillations for neutral excitons when the hole ground state changes its angular momentum from lh = 0 to lh = 1, 2, and 3. The hole ring parameters derived from a simple model are in excellent agreement with the structural parameters for this system.Comment: Revised version, 10 pages, 3 figure

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