Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2011-10-19
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
11 pages, 6 figures, submitted to Beilstein Journal of Nanotechnology, Issue "Transport through molecular junctions "
Scientific paper
The effect of electronic current on the atomic motion still poses many open questions, and several mechanisms are at play. Recently there has been focus on the importance of the current-induced non-conservative forces (NC) and Berry-phase derived forces (BP) regarding the stability of molecular-scale contacts. Systems based on molecules bridging electrically gated graphene electrodes may offer an interesting test-bed for these effects. We employ a semi-classical Langevin approach in combination with DFT calculations to study the current-induced vibrational dynamics of an atomic carbon chain connecting electrically gated graphene electrodes. This illustrates how the device stability can be predicted solely from the modes obtained from the Langevin equation including the current induced forces. We point out that the gate offers control of the current independent of bias voltage which can be used to explore current-induced vibrational instabilities due the NC/BP forces. Furthermore, using tight-binding and the Brenner potential we illustrate how Langevin-type molecular dynamics can be performed including the Joule heating effect for the carbon chain systems. Molecular dynamics including current-induced forces enables an energy redistribution mechanism among the modes, mediated by anharmonic interactions, which is found to be vital in the description of the electronic heating. We have developed a semi-classical Langevin equation approach which can be used to explore current-induced dynamics and instabilities. We find instabilities at experimentally relevant bias and gate voltages for the carbon chain system.
Brandbyge Mads
Gunst Tue
Hedegard Per
Lü Jing Tao
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