Kondo tunneling through real and artificial molecules

D. Giuliano; D. Goldhaber-Gordon; F. C. Zhang; F. D. M. Haldane; F. Simmel; J. Nygård; J. Schmid; K. A. Kikoin; Konstantin Kikoin; L. I. Glazman; L. P. Rokhinson; L. P. Rokhinson; M. Eto; M. Pustilnik; M. Pustilnik; N. S. Sasaki; P. Fulde; P. W. Anderson; Ph. Nozieres; Ph. Nozieres; S. M. Cronenwett; T. K. Ng; V. A. Fateev; W. Liu; Y. Dothan; Y. Shimizu; Yshai Avishai

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Kondo tunneling through real and artificial molecules

Authors: D. Giuliano
D. Goldhaber-Gordon
F. C. Zhang
F. D. M. Haldane
F. Simmel
J. Nygård
J. Schmid
K. A. Kikoin
Konstantin Kikoin
L. I. Glazman
L. P. Rokhinson
L. P. Rokhinson
M. Eto
M. Pustilnik
M. Pustilnik
N. S. Sasaki
P. Fulde
P. W. Anderson
Ph. Nozieres
Ph. Nozieres
S. M. Cronenwett
T. K. Ng
V. A. Fateev
W. Liu
Y. Dothan
Y. Shimizu
Yshai Avishai
Publication date: 19 July 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

When a cerocene molecule is chemisorbed on metallic substrate, or when an asymmetric double dot is hybridized with itinerant electrons, its singlet ground state crosses its lowly excited triplet state, leading to a competition between the Zhang-Rice mechanism of singlet-triplet splitting in a confined cluster and the Kondo effect (which accompanies the tunneling through quantum dot under a Coulomb blockade restriction). The rich physics of an underscreened S=1 Kondo impurity in the presence of low-lying triplet/singlet excitations is exposed. Estimates of the magnetic susceptibility and the electric conductance are presented.Comment: 4 two-column revtex pages including 1 eps figur

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