Current-induced phonon renormalization in molecular junctions

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Bai M, Cucinotta C.S, Jiang Z, Wang H, Wang Y, Rungger I, Sanvito S, Hou S, Current-induced phonon renormalization in molecular junctions, Physical Review B - Condensed Matter and Materials Physics, 94, 3, 2016, 035411-

Abstract

We explain how the electrical current flow in a molecular junction can modify the vibrational spectrum of the molecule by renormalizing its normal modes of oscillations. This is demonstrated with first-principles self-consistent transport theory, where the current-induced forces are evaluated from the expectation value of the ionic momentum operator. We explore here the case of H 2 sandwiched between two Au electrodes and show that the current produces stiffening of the transverse translational and rotational modes and softening of the stretching modes along the current direction. Such behavior is understood in terms of charge redistribution, potential drop, and elasticity changes as a function of the current.

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Export Date: 5 January 2017

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Sponsor: European Union Framework Programme 7 (FP7)
Grant Number: 618082 ACMOL

Type of material: Journal Article