Transport properties of double quantum dots coupled to a superconductor

ORAL

Abstract

Superconductor/semiconductor hybrid systems have drawn a lot of attention due to their rich physics and the potential to demonstrate topologically protected qubits. We experimentally investigate transport properties of a double dot electrostatically defined in an InAs nanowire by metallic gates under the wire. Superconductivity is provided by epitaxial Al shell grown in-situ after nanowire growth. The shell induces a hard gap and sharp spectral features of Andreev bound states in the nanowire. The source of the double dot is a normal metal while the drain is a superconductor. We study the spectra of the resulting normal-Andreev double dot and search for the recently proposed Andreev blockade upon which current is blocked in the triplet (1,1) configuration which is unable to form a Cooper pair and enter the drain superconductor.

Presenters

  • Po Zhang

    • University of Pittsburgh
    • Physics, Univ. of Pittsburgh

Authors

  • Po Zhang

    • University of Pittsburgh
    • Physics, Univ. of Pittsburgh

  • Hao Wu

    • University of Pittsburgh
    • Physics, Univ. of Pittsburgh

  • Sabbir Ahmed Khan

    • University of Copenhagen

  • Peter Krogstrup

    • Niels Bohr Institute, University of Copenhagen
    • University of Copenhagen
    • Center for Quantum Devices and Microsoft Quantum Lab--Copenhagen, Niels Bohr Institute, University of Copenhagen
    • Center for Quantum Devices, Niels Bohr Institute, University of Copenhagen

  • David Pekker

    • University of Pittsburgh
    • Physics and Astronomy, University of Pittsburgh
    • Univ of Pittsburgh
    • Department of Physics and Astronomy, Univ of Pittsburgh

  • Sergey M Frolov

    • Dept. of Physics, Univ. of Pittsburgh, Pittsburgh, PA, USA
    • Univ of Pittsburgh
    • University of Pittsburgh
    • Physics, Univ. of Pittsburgh