Towards unified understanding of conductance of stretched monatomic
  contacts

A. Levy Yeyati; A.I. Yanson; A.I. Yanson; D. Sánchez-Portal; D.-H. Kim; E. Scheer; E. Scheer; E.Z. da Silva; G. Rubio; G. Rubio-Bollinger; H. Ohnishi; H.-S. Sim; H.-S. Sim; H.-S. Sim; H.-W. Lee; H.-W. Lee; J. Reichert; J.A. Torres; J.C. Cuevas; J.C. Cuevas; J.J. Palacios; J.M. Krans; K. J. Chang; K. Würde; L. Kleinman; N. Kobayashi; N. Kobayashi; N. Troullier; R.H.M. Smit; S. Datta; S. Tsukamoto; S.K. Nielsen; S.R. Bahn; V. Rodrigues; Y.-G. Jin

research

Towards unified understanding of conductance of stretched monatomic contacts

Authors: A. Levy Yeyati
A.I. Yanson
A.I. Yanson
D. Sánchez-Portal
D.-H. Kim
E. Scheer
E. Scheer
E.Z. da Silva
G. Rubio
G. Rubio-Bollinger
H. Ohnishi
H.-S. Sim
H.-S. Sim
H.-S. Sim
H.-W. Lee
H.-W. Lee
J. Reichert
J.A. Torres
J.C. Cuevas
J.C. Cuevas
J.J. Palacios
J.M. Krans
K. J. Chang
K. Würde
L. Kleinman
N. Kobayashi
N. Kobayashi
N. Troullier
R.H.M. Smit
S. Datta
S. Tsukamoto
S.K. Nielsen
S.R. Bahn
V. Rodrigues
Y.-G. Jin
Publication date: 1 January 2003
Publisher: 'American Physical Society (APS)'
Doi

Abstract

When monatomic contacts are stretched, their conductance behaves in qualitatively different ways depending on their constituent atomic elements. Under a single assumption of resonance formation, we show that various conductance behavior can be understood in a unified way in terms of the response of the resonance to stretching. This analysis clarifies the crucial roles played by the number of valence electrons, charge neutrality, and orbital shapes.Comment: 2 figure