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Influence of vibrations on electron transport through nanoscale contacts

In this article we present a novel semi-analytical approach to calculate first-order electron-vibration coupling constants within the framework of density functional theory. It combines analytical expressions for the first-order derivative of the Kohn-Sham operator with respect to nuclear displacements with coupled-perturbed Kohn-Sham theory to determine the derivative of the electronic density matrix. This allows us to efficiently compute accurate electron-vibration coupling constants. We apply our approach to describe inelastic electron tunneling spectra of metallic and molecular junctions. A gold junction bridged by an atomic chain is used to validate the developed method, reproducing established experimental and theoretical results. For octane-dithiol and octane-diamine single-molecule junctions we discuss the influence of the anchoring group and mechanical stretching on the inelastic electron tunneling spectra.

preprint2013arXivOpen access
Marius BürkleJanne K. ViljasThomas J. HellmuthElke ScheerFlorian WeigendGerd SchönFabian Pauly
cond-mat.mes-hallcond-mat.mtrl-sci
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Marius BürkleJanne K. ViljasThomas J. HellmuthElke ScheerFlorian WeigendGerd SchönFabian Pauly

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