English

Insulator-metal transition in biased finite polyyne systems

Mesoscale and Nanoscale Physics 2009-09-09 v1 Materials Science
Authors: A. La Magna , I. Deretzis , V. Privitera
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Abstract

A method for the study of the electronic transport in strongly coupled electron-phonon systems is formalized and applied to a model of polyyne chains biased through metallic Au leads. We derive a stationary non equilibrium polaronic theory in the general framework of a variational formulation. The numerical procedure we propose can be readily applied if the electron-phonon interaction in the device hamiltonian can be approximated as an effective single particle electron hamiltonian. Using this approach, we predict that finite polyyne chains should manifest an insulator-metal transition driven by the non-equilibrium charging which inhibits the Peierls instability characterizing the equilibrium state.

Keywords

electron-phonon coupling metal-insulator transition molecular electronics

Cite

@article{arxiv.0906.0269,
  title  = {Insulator-metal transition in biased finite polyyne systems},
  author = {A. La Magna and I. Deretzis and V. Privitera},
  journal= {arXiv preprint arXiv:0906.0269},
  year   = {2009}
}

Comments

to appear at EPJB

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