Strong tuning of Rashba spin orbit interaction in single InAs nanowires

Awschalom D. D.; Bryllert T.; Datta S.; Dayeh S. A.; Dayeh S. A.; Dhara S.; Dong Liang; Du J.; Estévez Hernández S.; Ford A. C.; Gao X. P. A.; Grundler D.; Hansen A. E.; Hao X. J.; Jiang X.; Knap W.; Ko H.; Koga T.; Koo H. C.; Liang D.; Liang D.; Lin P. A.; Lu C.; Mak K. F; Miller J. B.; Nitta J.; Petersen G.; Quay C. H. L.; Sakr M. R.; Schroer M. D.; SchäPers Th.; Siddons G. P.; Storm K.; Weitz R. T.; Wernersson L. E.; Xuan P.A. Gao; Zutic I.

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Strong tuning of Rashba spin orbit interaction in single InAs nanowires

Authors: Awschalom D. D.
Bryllert T.
Datta S.
Dayeh S. A.
Dayeh S. A.
Dhara S.
Dong Liang
Du J.
Estévez Hernández S.
Ford A. C.
Gao X. P. A.
Grundler D.
Hansen A. E.
Hao X. J.
Jiang X.
Knap W.
Ko H.
Koga T.
Koo H. C.
Liang D.
Liang D.
Lin P. A.
Lu C.
Mak K. F
Miller J. B.
Nitta J.
Petersen G.
Quay C. H. L.
Sakr M. R.
Schroer M. D.
SchäPers Th.
Siddons G. P.
Storm K.
Weitz R. T.
Wernersson L. E.
Xuan P.A. Gao
Zutic I.
Publication date: 7 May 2012
Publisher: 'American Chemical Society (ACS)'
Doi

Abstract

A key concept in the emerging field of spintronics is the gate voltage or electric field control of spin precession via the effective magnetic field generated by the Rashba spin orbit interaction. Here, we demonstrate the generation and tuning of electric field induced Rashba spin orbit interaction in InAs nanowires where a strong electric field is created either by a double gate or a solid electrolyte surrounding gate. In particular, the electrolyte gating enables six-fold tuning of Rashba coefficient and nearly three orders of magnitude tuning of spin relaxation time within only 1 V of gate bias. Such a dramatic tuning of spin orbit interaction in nanowires may have implications in nanowire based spintronic devices.Comment: Nano Letters, in pres

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info:doi/10.1021%2Fnl301325h

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