Probing the Shape of Quantum Dots with Magnetic Fields

D. Pfannkuche; D. Pfannkuche; D.G. Austing; F. K. Diakonos; F.M. Peeters; I. Magnúsdóttir; K. Hirose; L.P. Kouwenhoven; M. Dineykhan; M. Fujito; M. Taut; M. Wagner; N.S. Simonović; O. Dippel; P. S. Drouvelis; P. Schmelcher; P.A. Maksym; P.A. Maksym; P.S. Drouvelis; P.S. Drouvelis; S. Tarucha; S.M. Reimann; T. Brocke; T. Ezaki; U. Merkt; W. Kohn

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Probing the Shape of Quantum Dots with Magnetic Fields

Authors: D. Pfannkuche
D. Pfannkuche
D.G. Austing
F. K. Diakonos
F.M. Peeters
I. Magnúsdóttir
K. Hirose
L.P. Kouwenhoven
M. Dineykhan
M. Fujito
M. Taut
M. Wagner
N.S. Simonović
O. Dippel
P. S. Drouvelis
P. Schmelcher
P.A. Maksym
P.A. Maksym
P.S. Drouvelis
P.S. Drouvelis
S. Tarucha
S.M. Reimann
T. Brocke
T. Ezaki
U. Merkt
W. Kohn
Publication date: 13 February 2004
Publisher: 'American Physical Society (APS)'
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Abstract

A tool for the identification of the shape of quantum dots is developed. By preparing a two-electron quantum dot, the response of the low-lying excited states to a homogeneous magnetic field, i.e. their spin and parity oscillations, is studied for a large variety of dot shapes. For any geometric configuration of the confinement we encounter characteristic spin singlet - triplet crossovers. The magnetization is shown to be a complementary tool for probing the shape of the dot.Comment: 11 pages, 4 figure

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