Detecting a Majorana-Fermion Zero Mode Using a Quantum Dot
Abstract
We propose an experimental setup for detecting a Majorana zero mode consisting of a spinless quantum dot coupled to the end of a p-wave superconducting nanowire. The Majorana bound state at the end of the wire strongly influences the conductance through the quantum dot: Driving the wire through the topological phase transition causes a sharp jump in the conductance by a factor of 1/2. In the topological phase, the zero temperature peak value of the dot conductance (i.e. when the dot is on resonance and symmetrically coupled to the leads) is e^2/2h. In contrast, if the wire is in its trivial phase, the conductance peak value is e^2/h, or if a regular fermionic zero mode occurs on the end of the wire, the conductance is 0. The system can also be used to tune Flensberg's qubit system [PRL 106, 090503 (2011)] to the required degeneracy point.
Cite
@article{arxiv.1107.4338,
title = {Detecting a Majorana-Fermion Zero Mode Using a Quantum Dot},
author = {Dong E. Liu and Harold U. Baranger},
journal= {arXiv preprint arXiv:1107.4338},
year = {2011}
}
Comments
5 pages, 4 figures