M. Gaass, A. K. Huettel, K. Kang, I. Weymann, J. von Delft, Ch. Strunk
Published 2011-04-29Version 1
We investigate quantum dots in clean single-wall carbon nanotubes with ferromagnetic PdNi-leads in the Kondo regime. In most odd Coulomb valleys the Kondo resonance exhibits a pronounced splitting, which depends on the tunnel coupling to the leads and an external magnetic field $B$, and only weakly on gate voltage. Using numerical renormalization group calculations, we demonstrate that all salient features of the data can be understood using a simple model for the magnetic properties of the leads. The magnetoconductance at zero bias and low temperature depends in a universal way on $g \mu_B (B-B_c) / k_B T_K$, where $T_K$ is the Kondo temperature and $B_c$ the external field compensating the splitting.
Comments: 4 pages, 4 figures
Journal: Phys. Rev. Lett. 107, 176808 (2011)
Kondo effect in quantum dots coupled to ferromagnetic leads
Compensation of the Kondo effect in quantum dots coupled to ferromagnetic leads within equation of motion approach
Adiabatic charge and spin pumping through quantum dots with ferromagnetic leads
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