Linear scaling between momentum and spin scattering in graphene

C. Jozsa; T. Maassen; M. Popinciuc; P. J. Zomer; A. Veligura; H. T. Jonkman; B. J. van Wees

doi:10.1103/PhysRevB.80.241403

Linear scaling between momentum and spin scattering in graphene

C. Jozsa^*, T. Maassen, M. Popinciuc, P. J. Zomer, A. Veligura, H. T. Jonkman, B. J. van Wees

^*Corresponding author for this work

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Abstract

Spin transport in graphene carries the potential of a long spin-diffusion length at room temperature. However, extrinsic relaxation processes limit the current experimental values to 1-2 mu m. We present Hanle spin precession measurements in gated lateral spin valve devices in the low to high (up to 10(13) cm(-2)) carrier density range of graphene. A linear scaling between the spin-diffusion length and the diffusion coefficient is observed. We measure nearly identical spin- and charge diffusion coefficients indicating that electron-electron interactions are relatively weak and transport is limited by impurity potential scattering. When extrapolated to the maximum carrier mobilities of 2x10(5) cm(2)/Vs, our results predict that a considerable increase in the spin-diffusion length should be possible.

Original language	English
Article number	241403
Pages (from-to)	241403-1-241403-4
Number of pages	4
Journal	Physical Review. B: Condensed Matter and Materials Physics
Volume	80
Issue number	24
DOIs	https://doi.org/10.1103/PhysRevB.80.241403
Publication status	Published - Dec-2009

Keywords

carrier density
carrier lifetime
carrier mobility
graphene
impurity scattering
spin dynamics
spin polarised transport
SUSPENDED GRAPHENE
PRECESSION
TRANSPORT

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title = "Linear scaling between momentum and spin scattering in graphene",

abstract = "Spin transport in graphene carries the potential of a long spin-diffusion length at room temperature. However, extrinsic relaxation processes limit the current experimental values to 1-2 mu m. We present Hanle spin precession measurements in gated lateral spin valve devices in the low to high (up to 10(13) cm(-2)) carrier density range of graphene. A linear scaling between the spin-diffusion length and the diffusion coefficient is observed. We measure nearly identical spin- and charge diffusion coefficients indicating that electron-electron interactions are relatively weak and transport is limited by impurity potential scattering. When extrapolated to the maximum carrier mobilities of 2x10(5) cm(2)/Vs, our results predict that a considerable increase in the spin-diffusion length should be possible.",

keywords = "carrier density, carrier lifetime, carrier mobility, graphene, impurity scattering, spin dynamics, spin polarised transport, SUSPENDED GRAPHENE, PRECESSION, TRANSPORT",

author = "C. Jozsa and T. Maassen and M. Popinciuc and Zomer, \{P. J.\} and A. Veligura and Jonkman, \{H. T.\} and \{van Wees\}, \{B. J.\}",

year = "2009",

month = dec,

doi = "10.1103/PhysRevB.80.241403",

language = "English",

volume = "80",

pages = "241403--1--241403--4",

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AU - Jozsa, C.

AU - Maassen, T.

AU - Popinciuc, M.

AU - Zomer, P. J.

AU - Veligura, A.

AU - Jonkman, H. T.

AU - van Wees, B. J.

PY - 2009/12

Y1 - 2009/12

N2 - Spin transport in graphene carries the potential of a long spin-diffusion length at room temperature. However, extrinsic relaxation processes limit the current experimental values to 1-2 mu m. We present Hanle spin precession measurements in gated lateral spin valve devices in the low to high (up to 10(13) cm(-2)) carrier density range of graphene. A linear scaling between the spin-diffusion length and the diffusion coefficient is observed. We measure nearly identical spin- and charge diffusion coefficients indicating that electron-electron interactions are relatively weak and transport is limited by impurity potential scattering. When extrapolated to the maximum carrier mobilities of 2x10(5) cm(2)/Vs, our results predict that a considerable increase in the spin-diffusion length should be possible.

AB - Spin transport in graphene carries the potential of a long spin-diffusion length at room temperature. However, extrinsic relaxation processes limit the current experimental values to 1-2 mu m. We present Hanle spin precession measurements in gated lateral spin valve devices in the low to high (up to 10(13) cm(-2)) carrier density range of graphene. A linear scaling between the spin-diffusion length and the diffusion coefficient is observed. We measure nearly identical spin- and charge diffusion coefficients indicating that electron-electron interactions are relatively weak and transport is limited by impurity potential scattering. When extrapolated to the maximum carrier mobilities of 2x10(5) cm(2)/Vs, our results predict that a considerable increase in the spin-diffusion length should be possible.

KW - carrier density

KW - carrier lifetime

KW - carrier mobility

KW - graphene

KW - impurity scattering

KW - spin dynamics

KW - spin polarised transport

KW - SUSPENDED GRAPHENE

KW - PRECESSION

KW - TRANSPORT

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DO - 10.1103/PhysRevB.80.241403

M3 - Article

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VL - 80

SP - 241403-1-241403-4

JO - Physical Review. B: Condensed Matter and Materials Physics

JF - Physical Review. B: Condensed Matter and Materials Physics

IS - 24

M1 - 241403

ER -

Linear scaling between momentum and spin scattering in graphene

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