How to realize a robust practical Majorana chain in a quantum dot-superconductor linear array
Abstract
Semiconducting nanowires in proximity to superconductors are promising experimental systems for Majorana fermions, which may ultimately be used as building blocks for topological quantum computers. A serious challenge in the experimental realization of the Majorana fermions is the supression of topological superconductivity by disorder. We show that Majorana fermions protected by a robust topological gap can occur at the ends of a chain of quantum dots connected by s-wave superconductors. In the appropriate parameter regime, we establish that the quantum dot/superconductor system is equivalent to a 1D Kitaev chain, which can be tuned to be in a robust topological phase with Majorana end modes even in the case where the quantum dots and superconductors are both strongly disordered. Such a spin-orbit coupled quantum dot - s-wave superconductor array provides an ideal experimental platform for the observation of non-Abelian Majorana modes.
Keywords
Cite
@article{arxiv.1111.6600,
title = {How to realize a robust practical Majorana chain in a quantum dot-superconductor linear array},
author = {Jay D. Sau and S. Das Sarma},
journal= {arXiv preprint arXiv:1111.6600},
year = {2012}
}
Comments
8 pages; 3 figures; version 2: Supplementary material updated to include more general proof for localized Majorana fermions