Muralidharan, B. ; Ghosh, A. W. ; Pati, S. K. ; Datta, S. (2007) Theory of high bias Coulomb Blockade in ultrashort molecules IEEE Transactions on Nanotechnology, 6 (5). pp. 536-544. ISSN 1536-125X
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Related URL: http://dx.doi.org/10.1109/TNANO.2007.898605
Abstract
We point out that single electron charging effects such as coulomb blockade (CB) and high-bias staircases play a crucial role in transport through single ultrashort molecules. A treatment of CB through a prototypical molecule, benzene, is developed using a master-equation in its complete many-electron Fock space, evaluated through exact diagonalization or full configuration interaction (CI). This approach can explain a whole class of nontrivial experimental features including vanishing zero bias conductances, sharp current onsets followed by ohmic current rises, and gateable current levels and conductance structures, most of which cannot be captured even qualitatively within the traditional self-consistent field (SCF) approach coupled with perturbative transport theories. By comparing the two approaches, namely SCF and CB, in the limit of weak coupling to the electrode, we establish that the inclusion of strong correlations within the molecule becomes critical in addressing the above experiments. Our approach includes on-bridge correlations fully, and is therefore well-suited for describing transport through short molecules in the limit of weak coupling to electrodes.
Item Type: | Article |
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Source: | Copyright of this article belongs to IEEE. |
ID Code: | 60861 |
Deposited On: | 12 Sep 2011 07:19 |
Last Modified: | 12 Sep 2011 07:19 |
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