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Paper detail

Kondo Effect in a Quantum-Dot-Topological-Superconductor Junction

We investigate the dynamical and transport features of a Kondo dot side-coupled to a topological superconductor (TS). The Majorana fermion states (MFS) formed at the ends of the TS are found to be able to alter the Kondo physics profoundly: For the ideal setup where the MFS do not overlap ($ε_m=0$) a finite dot-MFS coupling $(Γ_m)$ reduces the unitary-limit value of the linear conductance by exactly a factor 3/4 in the Kondo-dominant regime $(Γ_m<T_K)$, where $T_K$ is the Kondo temperature. In the Majorana-fermion dominant phase ($Γ_m>T_K)$, on the other hand, the spin-split Kondo resonance takes place due to the MFS-induced Zeeman splitting, which is a genuine many-body effect of the strong Coulomb interaction and the topological superconductivity. We find that the original Kondo resonance is fully restored once the MFSs are strongly hybridized ($ε_m > Γ_m$). This unusual interaction between the Kondo effect and the MFS can thus serve to detect the Majorana fermions unambiguously and quantify the degree of overlap between the MFSs in the TS.

preprint2012arXivOpen access
Minchul LeeJong Soo LimHeunghwan KhimRosa Lopez
cond-mat.mes-hallcond-mat.str-el
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Minchul LeeJong Soo LimHeunghwan KhimRosa Lopez

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