Superconducting proximity effect in InAsSb surface quantum wells with in-situ Al contacts

William Schiela; William Mayer; Joseph Yuan; Mehdi Hatefipour; Wendy L Sarney; Stefan P Svensson; Asher Leff; Tiago De Campos; Kaushini S Wickramasinghe; Matthieu Dartiailh; Igor Zutic; Javad Shabani

Superconducting proximity effect in InAsSb surface quantum wells with in-situ Al contacts

ORAL

Abstract

We demonstrate a robust superconducting proximity effect in InAs_0.5Sb_0.5 quantum wells grown with epitaxial Al contacts, which has important implications for mesoscopic and topological superconductivity. Unlike more commonly studied InAs and InSb semiconductors, bulk InAs_0.5Sb_0.5 supports stronger spin-orbit coupling and a larger g-factor. Through structural and transport characterization we observe high-quality interfaces and strong spin-orbit coupling. We fabricate Josephson junctions based on InAs_0.5Sb_0.5 quantum wells and observe a strong proximity effect. These junctions exhibit products of normal resistance and critical current, I_cR_N = 270μV, and excess current, I_exR_N = 200μV, at contact separations of 500nm. Both of these quantities demonstrate a robust and long-range proximity effect with highly-transparent contacts.

March 2, 2020, 6:30 PM – March 2, 2020, 6:42 PM

Presenters

William Schiela

Department of Physics, New York University

Authors

William Schiela

Department of Physics, New York University
William Mayer

Department of Physics, New York University, New York University, Physics, New York University, New York Univ NYU, Center for Quantum Phenomena, New York University
Joseph Yuan

New York University, Physics, New York University, New York Univ NYU, Center for Quantum Phenomena, New York University, Department of Physics, New York University
Mehdi Hatefipour

New York University, New York Univ NYU, Department of Physics, New York University
Wendy L Sarney

US Army Combat Capabilities Command, Army Research Laboratory
Stefan P Svensson

US Army Combat Capabilities Command, Army Research Laboratory
Asher Leff

US Army Combat Capabilities Command, Army Research Laboratory, Sensors and Electronic Devices, U.S. Army Research Laboratory, Adelphi, MD 20783
Tiago De Campos

Department of Physics, University at Buffalo
Kaushini S Wickramasinghe

New York University, Physics, New York University, University of Maryland, College Park, Center for Quantum Phenomena, New York University, New York Univ NYU, Department of Physics, New York University
Matthieu Dartiailh

Department of Physics, New York University, Physics, New York University, New York University, Center for Quantum Phenomena, New York University, New York Univ NYU, Center for Quantum Phenomena, NYU
Igor Zutic

Department of Physics, State Univ of NY - Buffalo, University at Buffalo, Physics, Buffalo State Univeristy of New York, Department of Physics, State University at New York at Buffalo, State Univ of NY - Buffalo, Physics, University at Buffalo, State University of New York, Department of Physics, University at Buffalo, Department of physics, University at Buffalo
Javad Shabani

Department of Physics, New York University, New York University, Physics, New York University, New York Univ NYU, Center for Quantum Phenomena, New York University, Center for Quantum Phenomena, NYU