Spin-orbit interaction in InSb nanowires
- Van Weperen, I. (author)
- Tarasinski, B. (author)
- Eeltink, D. (author)
- Pribiag, V.S. (author)
- Plissard, S.R. (author)
- Bakkers, E.P.A.M. (author)
- Kouwenhoven, L.P. (author)
- Wimmer, M.T. (author)
DOIAbstract
We use magnetoconductance measurements in dual-gated InSb nanowire devices, together with a theoretical analysis of weak antilocalization, to accurately extract spin-orbit strength. In particular, we show that magnetoconductance in our three-dimensional wires is very different compared to wires in two-dimensional electron gases. We obtain a large Rashba spin-orbit strength of 0.5–1eVÅ corresponding to a spin-orbit energy of 0.25–1meV. These values underline the potential of InSb nanowires in the study of Majorana fermions in hybrid semiconductor-superconductor devices.QN/Quantum NanoscienceApplied Science
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