Graphene in multilayered CPP spin valves

Tariq M.G. Mohiuddin; Ernie Hill; Daniel Elias; Alexander Zhukov; Konstantin Novoselov; Andre Geim

doi:10.1109/TMAG.2008.2003065

Graphene in multilayered CPP spin valves

Tariq M.G. Mohiuddin, Ernie Hill, Daniel Elias, Alexander Zhukov, Konstantin Novoselov, Andre Geim

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

69 Citations (Scopus)

Abstract

In this paper, we have sandwiched a single-atom-thick sheet of graphene, a 2-D allotrope of carbon that is exciting tremendous research interest, between two ferromagnetic electrodes. Graphene has already been shown to support spin polarized conduction, when spin polarized electrons were injected into graphene sheets along the plane using magnetic electrodes. Here, we study spin polarized conduction perpendicular the plane of the graphene in conduction perpendicular to plane (CPP) geometry. It was found that graphene was sufficient to reduce the exchange coupling between the magnetic electrodes. We also found that in a NiFe/Au/Graphene/NiFe stack, the graphene channels the spin current perpendicular to the plane and thus produces an enhanced MR effect compared to a simple stack without the graphene. A significant anisotropy was found in the observed magnetoresistance in the cross electrode geometry employed.

Original language	English
Pages (from-to)	2624-2627
Number of pages	4
Journal	IEEE Transactions on Magnetics
Volume	44
Issue number	11 PART 2
DOIs	https://doi.org/10.1109/TMAG.2008.2003065
Publication status	Published - Nov 2008
Externally published	Yes

Keywords

Conduction perpendicular to plane (CPP)
Magnetoresistive device
Permalloy
Spin valve

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Electrical and Electronic Engineering

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10.1109/TMAG.2008.2003065

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title = "Graphene in multilayered CPP spin valves",

abstract = "In this paper, we have sandwiched a single-atom-thick sheet of graphene, a 2-D allotrope of carbon that is exciting tremendous research interest, between two ferromagnetic electrodes. Graphene has already been shown to support spin polarized conduction, when spin polarized electrons were injected into graphene sheets along the plane using magnetic electrodes. Here, we study spin polarized conduction perpendicular the plane of the graphene in conduction perpendicular to plane (CPP) geometry. It was found that graphene was sufficient to reduce the exchange coupling between the magnetic electrodes. We also found that in a NiFe/Au/Graphene/NiFe stack, the graphene channels the spin current perpendicular to the plane and thus produces an enhanced MR effect compared to a simple stack without the graphene. A significant anisotropy was found in the observed magnetoresistance in the cross electrode geometry employed.",

keywords = "Conduction perpendicular to plane (CPP), Magnetoresistive device, Permalloy, Spin valve",

author = "Mohiuddin, {Tariq M.G.} and Ernie Hill and Daniel Elias and Alexander Zhukov and Konstantin Novoselov and Andre Geim",

note = "Funding Information: T. M. G. Mohiuddin would like to thank Sultan Qaboos University for the funding of his Ph.D. studies. D. Elias would like to thank CNPq-Brazil for funding. This project was supported in part by EPSRC.",

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AU - Hill, Ernie

AU - Elias, Daniel

AU - Zhukov, Alexander

AU - Novoselov, Konstantin

AU - Geim, Andre

N1 - Funding Information: T. M. G. Mohiuddin would like to thank Sultan Qaboos University for the funding of his Ph.D. studies. D. Elias would like to thank CNPq-Brazil for funding. This project was supported in part by EPSRC.

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N2 - In this paper, we have sandwiched a single-atom-thick sheet of graphene, a 2-D allotrope of carbon that is exciting tremendous research interest, between two ferromagnetic electrodes. Graphene has already been shown to support spin polarized conduction, when spin polarized electrons were injected into graphene sheets along the plane using magnetic electrodes. Here, we study spin polarized conduction perpendicular the plane of the graphene in conduction perpendicular to plane (CPP) geometry. It was found that graphene was sufficient to reduce the exchange coupling between the magnetic electrodes. We also found that in a NiFe/Au/Graphene/NiFe stack, the graphene channels the spin current perpendicular to the plane and thus produces an enhanced MR effect compared to a simple stack without the graphene. A significant anisotropy was found in the observed magnetoresistance in the cross electrode geometry employed.

AB - In this paper, we have sandwiched a single-atom-thick sheet of graphene, a 2-D allotrope of carbon that is exciting tremendous research interest, between two ferromagnetic electrodes. Graphene has already been shown to support spin polarized conduction, when spin polarized electrons were injected into graphene sheets along the plane using magnetic electrodes. Here, we study spin polarized conduction perpendicular the plane of the graphene in conduction perpendicular to plane (CPP) geometry. It was found that graphene was sufficient to reduce the exchange coupling between the magnetic electrodes. We also found that in a NiFe/Au/Graphene/NiFe stack, the graphene channels the spin current perpendicular to the plane and thus produces an enhanced MR effect compared to a simple stack without the graphene. A significant anisotropy was found in the observed magnetoresistance in the cross electrode geometry employed.

KW - Conduction perpendicular to plane (CPP)

KW - Magnetoresistive device

KW - Permalloy

KW - Spin valve

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Graphene in multilayered CPP spin valves

Abstract

Keywords

ASJC Scopus subject areas

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