Band structure probe of near Surface InAs Quantum Wells

Brenden A Magill; Giti Khodaparast; Sunil K Thapa; Christopher J Stanton; Joseph Yuan; Mehdi Hatefipour; William Mayer; Matthieu Dartiailh; Kasra Sardashti; Kaushini S Wickramasinghe; Javad Shabani; Y. H. Matsuda; Zhuo Yang; Yoshimitsu Kohama

Band structure probe of near Surface InAs Quantum Wells

ORAL

Abstract

Near surface InAs quantum wells (QW) have recently attracted a great deal of interest as tools to explore mesoscopic and topological superconductivity. These shallow QWs can interact strongly with superconducting layers which can be epitaxially grown on their surfaces. In this talk, we present a combined experimental and theoretical approach to study the band structure of these QWs. The effective mass and g-factors in these QWs were determined using high field cyclotron resonance (CR). Unlike GaAs, narrow gap systems like InAs have large nonparabolicity in their band structures.The band parameters extracted from our CR experiments are consistent with those obtained from Shubnikov de Hass measurements and agree remarkably well with the theoretical calculations. Our band structure models include strong mixing of the conduction and valence bands which leads to a large non-parabolicity. The calculations accurately describe the experimental observations and allowing us to accurately map the effective mass and g-factor as a function of magnetic field, Landau level index, and the well width for different near surface InAs QWs.

^*Supported by the AFOSR FA9550-17-1-0341 and partially by NSF EAGER DMR-1836687 and the NSF- MRSEC DMR-1420073.

March 4, 2020, 2:30 PM – March 4, 2020, 2:42 PM

Presenters

Brenden A Magill
- Virginia Tech

Authors

Brenden A Magill
- Virginia Tech
Giti Khodaparast
- Virginia Tech
Sunil K Thapa
- University of Florida
- Univ. of Florida
Christopher J Stanton
- Univ. of Florida
- University of Florida
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
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
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
Kasra Sardashti
- New York University
- New York Univ NYU
- Physics, New York University
- Center for Quantum Phenomena, NYU
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
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
Y. H. Matsuda
- University of Tokyo
- Univ. of Tokyo
- Institute for Solid State Physics, University of Tokyo
Zhuo Yang
- University of Tokyo
- Univ. of Tokyo
Yoshimitsu Kohama
- Tokyo University
- University of Tokyo
- Univ. of Tokyo
- ISSP, The University of Tokyo