- MCW07 A Quantum Open Systems Approach to Molecular-Scale Devices
- MCW07 Modeling Charging-based Switching in Molecular Transport Junctions
- MCW07 Molecular Electronics and the Bottom-up View of Electronic Conduction
- Simple Photonic Crystals
- CQT Lecture 2: Electrical Resistance - A Simple Model
First, we consider electron-electron and electron-phonon interactions within Hubbard-Holstein Hamiltonian. Considerations similar to the equilibrium EOM approach developed by Meir et al. are used on the Keldysh contour to account for the nonequilibrium nature of the junction, and dressing by appropriate Franck-Condon (FC) factors is used to account for vibrational features. Results of the equilibrium EOM scheme by Meir et al. are reproduced in the appropriate limit.
Second, we obtain a unified description of heating in current carrying molecular junctions as well as the electron and phonon contributions to the thermal flux, including their mutual influence. Ways to calculate these contributions, their relative importance and ambiguities in their definitions are discussed. A general expression for the phonon thermal flux is derived and used in a new “measuring technique”, to define and quantify ‘local temperature’ in nonequilibrium systems.
Third, within HOMO-LUMO model we show that light induced current in unbiased junctions can take place when the bridging molecule is characterized by a strong charge-transfer transition. The same model shows current induced light emission under potential bias. We also show that coupling of a molecular bridge to electron-hole excitations in the leads can markedly effect the current. In some cases the contribution from electron-hole excitations can exceed the Landauer elastic current and dominate the observed conduction. Finally, in our latest research we use the HOMO-LUMO model to study Raman scattering of current-carrying molecular junctions.
- Phys. Rev. Lett. 66, 3048 (1991); ibid. 70, 2601 (1993)
Researchers should cite this work as follows:
Misha Galperin; Abraham Nitzan; Mark A. Ratner (2007), "MCW07 Simple Models for Molecular Transport Junctions," https://nanohub.org/resources/3072.
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