We show that a film of a semiconductor such as GaAs, in which s-wave superconductivity and a Zeeman splitting are induced by proximity effect, supports zero-energy Majorana fermion modes in the ordinary vortex excitations. The key to the topological order is the existence of spin-orbit coupling, coexisting with proximity-induced s-wave superconductivity. Since time reversal symmetry is explicitly broken, the edge of the film constitutes a chiral Majorana wire. The heterostructure we propose -- a semiconducting thin film sandwiched between an s-wave superconductor and a magnetic insulator -- is a generic system which can be used as the platform for topological quantum computation by virtue of the existence of non-Abelian Majorana fermions.
@article{arxiv.0907.2239,
title = {A generic new platform for topological quantum computation using semiconductor heterostructures},
author = {Jay D. Sau and Roman M. Lutchyn and Sumanta Tewari and S. Das Sarma},
journal= {arXiv preprint arXiv:0907.2239},
year = {2010}
}
Comments
4 pages, 3 eps figures; accepted for publication in PRL