L. Tosi, P. Roura-Bas, A. A. Aligia
Published 2013-09-18Version 1
We calculate the nonequilibrium conductance of a system of two capacitively coupled quantum dots, each one connected to its own pair of conducting leads. The system has been used recently to perform pseudospin spectroscopy by controlling independently the voltages of the four leads. The pseudospin is defined by the orbital occupation of one or the other dot. Starting from the SU(4) symmetric point of spin and pseudospin degeneracy in the Kondo regime, for an odd number of electrons in the system, we show how the conductance through each dot varies as the symmetry is reduced to SU(2) by a pseudo-Zeeman splitting, and as bias voltages are applied to any of the dots. We analize the expected behavior of the system in general, and predict characteristic fingerprint features of the SU(4) to SU(2) crossover that have not been observed so far.
Comments: 5 pages, 6 figures, submitted to Phys. Rev. B
Transport through a double quantum dot system with non-collinearly polarized leads
Large enhancement of thermoelectric effects in a double quantum dot system due to interference and Coulomb correlation phenomena
Restoring the SU(4) Kondo regime in a double quantum dot system
![QR code for arXiv:1309.4642 [cond-mat.mes-hall]](http://oss.arxitics.com/images/favicon.svg)