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Tunable Fano effect in parallel-coupled double quantum dot system

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arxiv cond-mat/0503204 v3 pith:QBG5G46F submitted 2005-03-09 cond-mat.mes-hall

Tunable Fano effect in parallel-coupled double quantum dot system

classification cond-mat.mes-hall
keywords fanocouplingfluxlineshapequantumspectrasystemconductance
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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With the help of the Green function technique and the equation of motion approach, the electronic transport through a parallel-coupled double quantum dot(DQD) is theoretically studied. Owing to the inter-dot coupling, the bonding and antibonding states of the artificial quantum-dot-molecule may constitute an appropriate basis set. Based on this picture, the Fano interference in the conductance spectra of the DQD system is readily explained. The possibility of manipulating the Fano lineshape in the tunnelling spectra of the DQD system is explored by tuning the dot-lead coupling, the inter-dot coupling, the magnetic flux threading the ring connecting dots and leads, and the flux difference between two sub-rings. It has been found that by making use of various tuning, the direction of the asymmetric tail of Fano lineshape may be flipped by external fields, and the continuous conductance spectra may be magnetically manipulated with lineshape retained. More importantly, by adjusting the magnetic flux, the function of two molecular states can be exchanged, giving rise to a swap effect, which might play a role as a qubit in the quantum computation.

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