Concomitant opening of a topological bulk-gap with an emerging Majorana edge-state

Abstract

Majorana 'zero-modes' are expected to be immune to decoherence. The primary method for their characterization in a 1D topological superconductor, is measuring the tunneling current into the edge of the superconductor. Presently, the hallmark of a localized Majorana edge-state is an emergent quantized zero-bias conductance peak (ZBCP). However, such a conductance peak can also result from other mechanisms; e.g., crossing (and sticking) of two branches of a standard Andreev bound state, or a soft potential at the edge of the superconductor. Since the emergence of a 'Majorana-ZBCP' must be accompanied by an opening of a topological gap in the bulk, we performed two simultaneous tunneling measurements: one in the bulk and another at the edge of the 1D superconductor. Measurements were performed with an InAs nanowire in-situ coated with epitaxial aluminum. For particular gate-tuning of the chemical potential in the wire and a Zeeman field parallel to the wire, we observed a closing of the superconducting bulk-gap followed by its reopening concomitant with the appearance of a ZBCP at the edge. We note that a ZBCP could also be observed with different tuning parameters without an observed reopening of the bulk-gap. This demonstrates the importance of simultaneous probing of the bulk and edge when searching for a Majorana edge-state.