Abstract

We present an ab initio nonequilibrium approach to calculate the current across a molecular junction. The method rests upon a wave function based description of the central region of the junction combined with a tight binding approximation for the electrodes in the frame of the Keldysh Green’s function formalism. In addition we present an extension so as to include effects of the two-particle propagator. Our procedure is demonstrated for a dithiolbenzene molecule between silver electrodes. The full current-voltage characteristic is calculated. Specific conclusions for the contribution of correlation and two-particle effects are derived. The latter are found to contribute about 5% to the current. The order of magnitude of the current coincides with experiments.

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