Transport in Coupled Quantum Dots: Kondo Effect Versus
  Anti-Ferromagnetic Correlation

A. Georges; A. Groshev; A. L. Lima; A. Levy Yeyati; A.C.Hewson; B. Coqblin; B.A. Jones; B.A. Jones; B.A. Jones; C. A. Büsser; C.A. Stafford; D. Goldhaber-Gordon; D.C. Langreth; E. Dagotto; E. V. Anda; E.V. Anda; G. Chiappe; G. Klimeck; I. Affleck; J. Hubbard; J.M. Golden; J.M. Luttinger; L.I. Glazman; L.I. Glazman; L.P. Kowenhoven; L.V. Keldysh; M. Rontani; M.A. Davidovich; Maria A. Davidovich; N.S. Wingreen; P. Coleman; P. Nozieres; R. Ashoori; R. Kotlyar; R.H. Blick; S. Hershfield; S.M. Cronenwatt; T. Aono; T.H. Osterkam; T.K. Ng; V. Ferrari; W. Metzner; Y. Meir; Y. Meir

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Transport in Coupled Quantum Dots: Kondo Effect Versus Anti-Ferromagnetic Correlation

Authors: A. Georges
A. Groshev
A. L. Lima
A. Levy Yeyati
A.C.Hewson
B. Coqblin
B.A. Jones
B.A. Jones
B.A. Jones
C. A. Büsser
C.A. Stafford
D. Goldhaber-Gordon
D.C. Langreth
E. Dagotto
E. V. Anda
E.V. Anda
G. Chiappe
G. Klimeck
I. Affleck
J. Hubbard
J.M. Golden
J.M. Luttinger
L.I. Glazman
L.I. Glazman
L.P. Kowenhoven
L.V. Keldysh
M. Rontani
M.A. Davidovich
Maria A. Davidovich
N.S. Wingreen
P. Coleman
P. Nozieres
R. Ashoori
R. Kotlyar
R.H. Blick
S. Hershfield
S.M. Cronenwatt
T. Aono
T.H. Osterkam
T.K. Ng
V. Ferrari
W. Metzner
Y. Meir
Y. Meir
Publication date: 1 December 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The interplay between the Kondo effect and the inter-dot magnetic interaction in a coupled-dot system is studied. An exact result for the transport properties at zero temperature is obtained by diagonalizing a cluster, composed by the double-dot and its vicinity, which is connected to leads. It is shown that the system goes continuously from the Kondo regime to an anti-ferromagnetic state as the inter-dot interaction is increased. The conductance, the charge at the dots and the spin-spin correlation are obtained as a function of the gate potential.Comment: 4 pages, 3 postscript figures. Submitted to PR

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