Electric Field Control of Magnetoresistance in InP Nanowires with Ferromagnetic Contacts

F.A. Zwanenburg; D.W. van der Mast; H.B. Heersche; L.P. Kouwenhoven; E.P.A.M. Bakkers

doi:10.1021/nl901184m

Electric Field Control of Magnetoresistance in InP Nanowires with Ferromagnetic Contacts

F.A. Zwanenburg, D.W. van der Mast, H.B. Heersche, L.P. Kouwenhoven^*, E.P.A.M. Bakkers

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

33 Citations (Scopus)

Abstract

We demonstrate electric field control of sign and magnitude of the magnetoresistance in InP nanowires with ferromagnetic contacts. The sign change in the magnetoresistance is directly correlated with a sign change in the transconductance. Additionally, the magnetoresistance is shown to persist at such a high bias that Coulomb blockade has been lifted. We also observe the magnetoresistance when one of the ferromagnets is replaced by a nonmagnetic metal. We conclude that it must be induced by a single ferromagnetic contact, and that spin transport can be ruled out as the origin. Our results emphasize the importance of a systematic investigation of spin-valve devices in order to discriminate between ambiguous interpretations.

Original language	English
Pages (from-to)	2704-2709
Number of pages	6
Journal	Nano letters
Volume	9
Issue number	7
Early online date	18 Jun 2009
DOIs	https://doi.org/10.1021/nl901184m
Publication status	Published - 8 Jul 2009
Externally published	Yes

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10.1021/nl901184m

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title = "Electric Field Control of Magnetoresistance in InP Nanowires with Ferromagnetic Contacts",

abstract = "We demonstrate electric field control of sign and magnitude of the magnetoresistance in InP nanowires with ferromagnetic contacts. The sign change in the magnetoresistance is directly correlated with a sign change in the transconductance. Additionally, the magnetoresistance is shown to persist at such a high bias that Coulomb blockade has been lifted. We also observe the magnetoresistance when one of the ferromagnets is replaced by a nonmagnetic metal. We conclude that it must be induced by a single ferromagnetic contact, and that spin transport can be ruled out as the origin. Our results emphasize the importance of a systematic investigation of spin-valve devices in order to discriminate between ambiguous interpretations.",

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T1 - Electric Field Control of Magnetoresistance in InP Nanowires with Ferromagnetic Contacts

AU - Zwanenburg, F.A.

AU - van der Mast, D.W.

AU - Heersche, H.B.

AU - Kouwenhoven, L.P.

AU - Bakkers, E.P.A.M.

PY - 2009/7/8

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N2 - We demonstrate electric field control of sign and magnitude of the magnetoresistance in InP nanowires with ferromagnetic contacts. The sign change in the magnetoresistance is directly correlated with a sign change in the transconductance. Additionally, the magnetoresistance is shown to persist at such a high bias that Coulomb blockade has been lifted. We also observe the magnetoresistance when one of the ferromagnets is replaced by a nonmagnetic metal. We conclude that it must be induced by a single ferromagnetic contact, and that spin transport can be ruled out as the origin. Our results emphasize the importance of a systematic investigation of spin-valve devices in order to discriminate between ambiguous interpretations.

AB - We demonstrate electric field control of sign and magnitude of the magnetoresistance in InP nanowires with ferromagnetic contacts. The sign change in the magnetoresistance is directly correlated with a sign change in the transconductance. Additionally, the magnetoresistance is shown to persist at such a high bias that Coulomb blockade has been lifted. We also observe the magnetoresistance when one of the ferromagnets is replaced by a nonmagnetic metal. We conclude that it must be induced by a single ferromagnetic contact, and that spin transport can be ruled out as the origin. Our results emphasize the importance of a systematic investigation of spin-valve devices in order to discriminate between ambiguous interpretations.

KW - n/a OA procedure

U2 - 10.1021/nl901184m

DO - 10.1021/nl901184m

M3 - Article

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EP - 2709

JO - Nano letters

JF - Nano letters

IS - 7

ER -

Electric Field Control of Magnetoresistance in InP Nanowires with Ferromagnetic Contacts

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