Probability and (Braiding) Statistics

David J. Clarke, Jay D. Sau, Sankar Das Sarma

Published 2016-10-27Version 1

Given recent progress in the realization of Majorana zero modes in semiconducting nanowires with proximity-induced superconductivity, a logical next step is to attempt an experimental demonstration of the predicted braiding statistics associated with the Majorana mode. Such a demonstration should, in principle, confirm that observed zero-bias anomalies are indeed indicative of the presence of anyonic Majorana zero modes. Moreover, such a demonstration would be a breakthrough at the level of fundamental physics: the first demonstration of a non-Abelian excitation. It is therefore crucial to clarify the expected signals of Majorana physics in the braiding context, and to differentiate these signals from those expected in non-topological variants of the same system. In this manuscript, we carefully examine the expected signals of braiding and fusion experiments in topological and non-topological systems. We point out situations where `trivial' and `anyonic' signatures may be similar experimentally, necessitating a certain level of caution in the interpretation of fusion and braiding experiments. We find in particular that braiding experiments consisting of full braids (two Majorana exchanges) are better at distinguishing between topological and non-topological systems than fusion experiments or experiments with an odd number of exchanges.