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Electron cotunneling through doubly occupied quantum dots: effect of spin configuration

AbstractA microscopic theory is presented for electron cotunneling through doubly occupied quantum dots in the Coulomb blockade regime. Beyond the semiclassic framework of phenomenological models, a fully quantum mechanical solution for cotunneling of electrons through a one-dimensional quantum dot is obtained using a quantum transmitting boundary method without any fitting parameters. It is revealed that the cotunneling conductance exhibits strong dependence on the spin configuration of the electrons confined inside the dot. Especially for the triplet configuration, the conductance shows an obvious deviation from the well-known quadratic dependence on the applied bias voltage. Furthermore, it is found that the cotunneling conductance reveals more sensitive dependence on the barrier width than the height.

Springer Science and Business Media LLC

Jian Lan Weidong Sheng

Nanoscale Research Letters

2011

Title: Electron cotunneling through doubly occupied quantum dots: effect of spin configuration

Description:

AbstractA microscopic theory is presented for electron cotunneling through doubly occupied quantum dots in the Coulomb blockade regime.

Beyond the semiclassic framework of phenomenological models, a fully quantum mechanical solution for cotunneling of electrons through a one-dimensional quantum dot is obtained using a quantum transmitting boundary method without any fitting parameters.

It is revealed that the cotunneling conductance exhibits strong dependence on the spin configuration of the electrons confined inside the dot.

Especially for the triplet configuration, the conductance shows an obvious deviation from the well-known quadratic dependence on the applied bias voltage.

Furthermore, it is found that the cotunneling conductance reveals more sensitive dependence on the barrier width than the height.

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Electron cotunneling through doubly occupied quantum dots: effect of spin configuration

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