M. Marciani, H. Schomerus, C. W. J. Beenakker
Published 2015-06-19Version 1
We calculate the joint distribution $P(S,Q)$ of the scattering matrix $S$ and time-delay matrix $Q=-i\hbar S^\dagger dS/dE$ of a chaotic quantum dot coupled by point contacts to metal electrodes. While $S$ and $Q$ are statistically independent for ballistic coupling, they become correlated for tunnel coupling. We relate the ensemble averages of $Q$ and $S$ and thereby obtain the average density of states at the Fermi level. We apply this to a calculation of the effect of a tunnel barrier on the Majorana resonance in a topological superconductor. We find that the presence of a Majorana bound state is hidden in the density of states and in the thermal conductance if even a single scattering channel has unit tunnel probability. The electrical conductance remains sensitive to the appearance of a Majorana bound state, and we calculate the variation of the average conductance through a topological phase transition.
Comments: Contribution for the special issue of Physica E in memory of Markus B\"{u}ttiker. 13 pages, 7 figures
Transport of Majorana Bound State in the presence of telegraph noise
Thermoelectric signatures of a Majorana bound state coupled to a quantum dot
Quantum-classical correspondence in the wavefunctions of Andreev billiards
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