Josephson supercurrent through a topological insulator surface state

TL;DR

This paper reports the first observation of a Josephson supercurrent through a topological insulator surface state, providing evidence for topologically protected surface conduction and potential platforms for Majorana fermions.

Contribution

It demonstrates direct supercurrent measurement in Nb-Bi2Te3-Nb junctions, confirming ballistic surface state conduction in a topological insulator.

Findings

Observation of Josephson supercurrent via Shapiro steps and Fraunhofer pattern.

Detection of topologically non-trivial surface states through Shubnikov-de Haas oscillations.

Evidence that the supercurrent is carried by the surface state despite bulk conductivity.

Abstract

Topological insulators are characterized by an insulating bulk with a finite band gap and conducting edge or surface states, where charge carriers are protected against backscattering. These states give rise to the quantum spin Hall effect without an external magnetic field, where electrons with opposite spins have opposite momentum at a given edge. The surface energy spectrum of a threedimensional topological insulator is made up by an odd number of Dirac cones with the spin locked to the momentum. The long-sought yet elusive Majorana fermion is predicted to arise from a combination of a superconductor and a topological insulator. An essential step in the hunt for this emergent particle is the unequivocal observation of supercurrent in a topological phase. Here, we present the first measurement of a Josephson supercurrent through a topological insulator. Direct evidence for Josephson supercurrents in superconductor (Nb) - topological insulator (Bi2Te3) - superconductor e-beam fabricated junctions is provided by the observation of clear Shapiro steps under microwave irradiation, and a Fraunhofer-type dependence of the critical current on magnetic field. The dependence of the critical current on temperature and length shows that the junctions are in the ballistic limit. Shubnikov-de Haas oscillations in magnetic fields up to 30 T reveal a topologically non-trivial two-dimensional surface state. We argue that the ballistic Josephson current is hosted by this surface state despite the fact that the normal state transport is dominated by diffusive bulk conductivity. The lateral Nb-Bi2Te3-Nb junctions hence provide prospects for the realization of devices supporting Majorana fermions.