Volume 117, 2000

Theoretical aspects of tunneling-current-induced bond excitation and breaking at surfaces

Abstract

We have performed a density functional study of the electronic structure, images and vibrationally inelastic tunneling in the scanning tunneling microscope and vibrational damping by excitation of electron–hole pairs of CO chemisorbed on the (111) and (100) faces of Cu. We find that the 2π* molecular orbital of CO turns into a broad resonance with parameters that differ significantly from those suggested by inverse and two-photon photoemission measurements. The calculated vibrational damping rate for the internal stretch mode and relative changes in tunneling conductance across vibrational thresholds are in agreement with experiment. The non-adiabatic electron–vibration coupling is well described by the Newn–Anderson model for the 2π*-derived resonance whereas this model is not able to describe the non-adiabatic coupling between the tunneling electrons and the vibration. We believe that this model misses an important mechanism for vibrational excitation in tunneling that involves the change of tunneling amplitude by deformation of the tails of the one-electron wavefunctions with vibrational coordinate.

Article information

Article type
Paper
Submitted
07 Apr 2000
First published
04 Oct 2000

Faraday Discuss., 2000,117, 277-290

Theoretical aspects of tunneling-current-induced bond excitation and breaking at surfaces

N. Lorente and M. Persson, Faraday Discuss., 2000, 117, 277 DOI: 10.1039/B002826F

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