Issue 39, 2023
From the journal:

CrystEngComm

Molecular beam epitaxy of InAs quantum wells on InP(001) for high mobility two-dimensional electron gases

Anna Aleksandrova, ORCID logo *ab   Christian Golz,ab   Klaus Biermann,c   Achim Trampert,c   Mykhaylo Semtsiv,a   Helmut Weidlich,b   William Ted Masselinka  and  Yukihiko Takagaki ORCID logo c  

* Corresponding authors

a Department of Physics, Humboldt University Berlin, Newton Str. 15, 12489 Berlin, Germany
E-mail: anna.aleksandrova@physik.hu-berlin.de

b Institute Kurz GmbH, Stockheimer Weg 1, 50829 Cologne, Germany

c Paul Drude Institute for Solid State Electronics, Hausvogteiplatz 5-7, 10117 Berlin, Germany

Abstract

InAs quantum wells are grown epitaxially as being embedded in (Ga,In)As–(Al,In)As double heterojunctions on InP(001). Despite an extensive gradual composition variation introduced in the buffer layer to overcome the mismatch of the lattices between InAs and InP, the layers relax during the epitaxy, as manifested by a cross-hatch pattern. The mobility of the two-dimensional (2D) electron gases in the quantum wells is nonetheless large, fairly unaffected by the presence of misfit dislocations generated in the lattice relaxation. The strain states in the epitaxial layer is analyzed using the X-ray diffraction. Transmission electron microscopy reveals that the relaxation is localized in the buffer layer, leaving the epitaxial growth in the quantum-well region coherent. The second subband of the 2D state is shown to be occupied when the sheet electron density is relatively low as the higher subbands are confined by the (In,Al)As layers.

Graphical abstract: Molecular beam epitaxy of InAs quantum wells on InP(001) for high mobility two-dimensional electron gases

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Article information

DOI
https://doi.org/10.1039/D3CE00010A
Article type
Paper
Submitted
03 Jan 2023
Accepted
01 Sep 2023
First published
18 Sep 2023
This article is Open Access
Creative Commons BY-NC license

CrystEngComm, 2023,25, 5541-5547

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Molecular beam epitaxy of InAs quantum wells on InP(001) for high mobility two-dimensional electron gases

A. Aleksandrova, C. Golz, K. Biermann, A. Trampert, M. Semtsiv, H. Weidlich, W. T. Masselink and Y. Takagaki, CrystEngComm, 2023, 25, 5541 DOI: 10.1039/D3CE00010A

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