Josephson detection of time-reversal symmetry broken superconductivity in SnTe nanowires

Author(s)

Trimble, CJ; Wei, MT; Yuan, NFQ; Kalantre, SS; Liu, P; Han, H-J; Han, M-G; Zhu, Y; Cha, JJ; Fu, L; Williams, JR; ... Show more Show less

Abstract

<jats:title>Abstract</jats:title><jats:p>A Josephson junction (JJ) couples the supercurrent flowing between two weakly linked superconductors to the phase difference between them via a current-phase relation (CPR). While a sinusoidal CPR is expected for conventional junctions with insulating weak links, devices made from some exotic materials may give rise to unconventional CPRs and unusual Josephson effects. In this work, we present such a case: we investigate the proximity-induced superconductivity in SnTe nanowires by incorporating them as weak links in JJs and observe a deviation from the standard CPR. We report on indications of an unexpected breaking of time-reversal symmetry in these devices, detailing the unconventional characteristics that reveal this behavior. These include an asymmetric critical current in the DC Josephson effect, a prominent second harmonic in the AC Josephson effect, and a magnetic diffraction pattern with a minimum in critical current at zero magnetic field. The analysis examines how multiband effects and the experimentally visualized ferroelectric domain walls give rise to this behavior, giving insight into the Josephson effect in materials that possess ferroelectricity and/or multiband superconductivity.</jats:p>

Date issued

2021

URI

https://hdl.handle.net/1721.1/141854

Department

Massachusetts Institute of Technology. Department of Physics

Journal

npj Quantum Materials

Publisher

Springer Science and Business Media LLC

Citation

Trimble, CJ, Wei, MT, Yuan, NFQ, Kalantre, SS, Liu, P et al. 2021. "Josephson detection of time-reversal symmetry broken superconductivity in SnTe nanowires." npj Quantum Materials, 6 (1).

Version: Final published version