Gapped Electronic Structure of Epitaxial Stanene on InSb(111)

ORAL

Abstract

Stanene (single-layer grey tin), with an electronic structure akin to that of graphene but exhibiting a much larger spin-orbit gap, offers a promising platform for room-temperature electronics based on the quantum spin Hall (QSH) effect. This material has received much theoretical attention, but a suitable substrate for stanene growth that results in an overall gapped electronic structure has been elusive; a sizable gap is necessary for room-temperature applications. Here, we report a study of stanene epitaxially grown on the (111)B face of indium antimonide (InSb). Angle-resolved photoemission spectroscopy (ARPES) measurements reveal a gap of 0.38 eV, in agreement with our first-principles calculations. The results indicate that stanene on InSb(111) is a strong contender for electronic QSH applications.

Presenters

  • Joseph Hlevyack

    Department of Physics, Univ of Illinois - Urbana

Authors

  • Caizhi Xu

    Department of Physics, University of Illinois Urbana-Champaign, Department of Physics, Univ of Illinois - Urbana

  • Joseph Hlevyack

    Department of Physics, Univ of Illinois - Urbana

  • Y -H Chan

    Academia Sinica, Institute of Atomic and Molecular Sciences, Institute of Atomic and Molecular Sciences, Academia Sinica

  • Peng Chen

    Lawrence Berkeley Natl Lab, Univ of Illinois - Urbana, Department of Physics, Univ of Illinois - Urbana

  • Xiaoxiong Wang

    Department of Physics, Univ of Illinois - Urbana

  • David Flötotto

    Univ of Illinois - Urbana, physics, Univ of Illinois - Urbana, Department of Physics, Univ of Illinois - Urbana

  • Guang Bian

    Univ of Missouri - Columbia, University of Missouri, Princeton U., Department of Physics and Astronomy, University of Missouri

  • Sung-Kwan Mo

    Lawrence Berkeley National Lab, Lawrence Berkeley Natl Lab, Lawrence Berkeley National Laboratory, Pohang Accelerator Laboratory, Advanced Light Source, Lawrence Berkeley National Laboratory

  • Mei-Yin Chou

    Institute of Atomic and Molecular Sciences, Academia Sinica

  • Tai-Chang Chiang

    Department of Physics, University of Illinois Urbana-Champaign, Univ of Illinois - Urbana, physics, Univ of Illinois - Urbana, Univeristy of Illinois, Department of Physics, Univ of Illinois - Urbana