Spin-orbit interaction in InAs/GaSb heterostructures quantified by weak antilocalization

F. Herling; C. Morrison; C. S. Knox; S. Zhang; O. Newell; M. Myronov; E. H. Linfield; C. H. Marrows

doi:10.1103/PhysRevB.95.155307

Spin-orbit interaction in InAs/GaSb heterostructures quantified by weak antilocalization

F. Herling^1,2, C. Morrison^1,3, C. S. Knox^1,4, S. Zhang⁵, O. Newell³, M. Myronov³, E. H. Linfield⁴, and C. H. Marrows¹

¹School of Physics and Astronomy, University of Leeds, Leeds, LS2 9TJ, United Kingdom
²Novel Materials Group, Institut für Physik, Humboldt-Universität zu Berlin, 12489 Berlin, Germany
³Department of Physics, University of Warwick, Coventry, CV4 7AL, United Kingdom
⁴School of Electronic and Electrical Engineering, University of Leeds, Leeds, LS2 9TJ, United Kingdom
⁵EPSRC National Centre for III-V Technologies, Department of Electronic and Electrical Engineering, University of Sheffield, Sheffield S1 4DE, United Kingdom

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Phys. Rev. B 95, 155307 – Published 10 April, 2017

DOI: https://doi.org/10.1103/PhysRevB.95.155307

Abstract

We study the spin-orbit interaction (SOI) in InAs/GaSb and InAs quantum wells. We show through temperature- and gate-dependent magnetotransport measurements of weak antilocalization that the dominant spin-orbit relaxation mechanism in our low-mobility heterostructures is Elliott-Yafet and not Dyakonov-Perel in the form of the Rashba or Dresselhaus SOI as previously suggested. We compare our findings with recent work on this material system and show that the SOI length lies within the same range. The SOI length may be controlled using an electrostatic gate, opening up prospects for developing spintronic applications.

Physical Review B

Spin-orbit interaction in InAs/GaSb heterostructures quantified by weak antilocalization

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Spin-orbit interaction in InAs/GaSb heterostructures quantified by weak antilocalization

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