Strongly Correlated Two-Electron Transport in a Quantum Waveguide Having a Single Anderson Impurity

Details Strongly Correlated Two-Electron Transport in a Quantum Waveguide Having a Single Anderson Impurity Strongly Correlated Two-Electron Transport in a Quantum Waveguide Having a Single Anderson Impurity

2008-02-13

arxiv.org/abs/0802.1908v2

Physics

Condensed Matter

Strongly Correlated Electrons

12 pages, 3 figures

Scientific paper

The strongly correlated two-electron transport in one-dimensional channel coupled with an Anderson-type impurity is solved exactly via a Bethe ansatz approach. We show that the transport properties are fundamentally different for spin singlet and triplet states, thus the impurity acts as a novel filter that operates based on the total spin angular momentum of the electron pairs, but not individual spins. The filter provides a deterministic generation of electron entanglement in spin, as well as energy and momentum space.

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