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Dresden 2006 – scientific programme

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TT: Tiefe Temperaturen

TT 9: Transport: Nanoelectronics III - Molecular Electronics

TT 9.2: Talk

Monday, March 27, 2006, 14:15–14:30, HSZ 304

Electromechanical properties of a biphenyl transistor — •Andrea Donarini, Utpal Sarkar, Milena Grifoni, and Klaus Richter — Theoretische Physik, Universitätsstraße 31, D-93053 Regensburg

Electrical transport through gated single molecules (also called molecular transistors) has become since a few years an active research field both theoretically and experimentally [1]. We investigate the interplay between electrical and mechanical degrees of freedom in transport across a biphenyl molecule in the Coulomb blockade regime. In particular, we analyze the role played in the electrical transport by the twisting mode between the phenyl rings. At low biases we can restrict our analysis to the neutral and anionic (one extra electron) state of the molecule only. The neutral molecule has two stable configurations at finite dihedral angles (θ ≈ ± π/4) while the anion state is planar. Charge transitions between the electrical states are thus modulated by Franck Condon amplitudes that account for the torsional degree of freedom yielding big phonon blockade effects [2]. We study the system using a generalized master equation for the reduced density matrix. We find that, due to the mechanically degenerate neutral state, the coherencies and not only the populations of the reduced density matrix determine the transport characteristics [3].

[1] A. Yacoby et al. Nature 436, 677 (2005)

[2] J. Koch, F. von Oppen, Phys. Rev. Lett. 94, 206804 (2005)

[3] A. Donarini, U. Sarkar, M. Grifoni and K. Richter in preparation

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