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Anti-resonances in electronic transport through a ferromagnetic lead with a side-coupled quantum dot

✍ Scribed by Jin-Fu Feng; Xue-Fan Jiang; Jia-Lin Zhong; Shu-Sheng Jiang

Publisher: Elsevier Science
Year: 2005
Tongue: English
Weight: 325 KB
Volume: 365
Category: Article
ISSN: 0921-4526
DOI: 10.1016/j.physb.2005.04.032

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✦ Synopsis

We investigate anti-resonances in the conductance of a ferromagnetic lead with a side-coupled quantum dot resulting from interference between a resonant and a nonresonant path through the system. The transport properties of electrons are derived in Coulomb blockade regime by the use of the equivalent single-particle multi-channel network and Landauer formula. At finite temperature the calculated values of the conductance versus the gate voltage exhibit a series of anti-resonant conductance dips, which are dependent on the temperature and the exchange field on the ferromagnetic lead. It is found that the shape of anti-resonance profile is sensitive to the strength of coupling between the quantum dot and the ferromagnetic lead.

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