Tunnel Magnetoresistance in Mesoscopic Ni/Co/Ni Magnetic Double Junctions with AlOx Tunnel Barriers

Hye Mi So; J. K. Kim; Ju Jin Kim; Jinhee Kim; Kyoung Hwa Yoo

Tunnel Magnetoresistance in Mesoscopic Ni/Co/Ni Magnetic Double Junctions with AlO_x Tunnel Barriers

Hye Mi So, J. K. Kim, Ju Jin Kim, Jinhee Kim, Kyoung Hwa Yoo

Department of Physics

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

3 Citations (Scopus)

Abstract

We have studied the electrical transport properties of a ferromagnetic single electron transistor consisting of a Ni/Al₂O ₃/Co/Al₂O₃/Ni double junction with side control gates. The dc current-voltage characteristics of the double junction show a clear Coulomb blockade effect at low temperatures and the tunnel current exhibits periodic Coulomb oscillations when the gate voltage is varied. The tunnel magnetoresistance curves show characteristic hysteretic peaks due to the different coercivities of the Ni and the Co films. In the Coulomb blockade region, the tunnel magnetoresistance ratio depends sensitively on the bias voltage and temperatures. The magnetoresistance ratio is enhanced by a factor of more than 2 in the Coulomb blockade region, which is consistent with the theoretical prediction based on the co-tunneling process of electrons.

Original language	English
Pages (from-to)	578-581
Number of pages	4
Journal	Journal of the Korean Physical Society
Volume	43
Issue number	4 I
Publication status	Published - 2003 Oct

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)

Cite this

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title = "Tunnel Magnetoresistance in Mesoscopic Ni/Co/Ni Magnetic Double Junctions with AlOx Tunnel Barriers",

abstract = "We have studied the electrical transport properties of a ferromagnetic single electron transistor consisting of a Ni/Al2O 3/Co/Al2O3/Ni double junction with side control gates. The dc current-voltage characteristics of the double junction show a clear Coulomb blockade effect at low temperatures and the tunnel current exhibits periodic Coulomb oscillations when the gate voltage is varied. The tunnel magnetoresistance curves show characteristic hysteretic peaks due to the different coercivities of the Ni and the Co films. In the Coulomb blockade region, the tunnel magnetoresistance ratio depends sensitively on the bias voltage and temperatures. The magnetoresistance ratio is enhanced by a factor of more than 2 in the Coulomb blockade region, which is consistent with the theoretical prediction based on the co-tunneling process of electrons.",

author = "So, {Hye Mi} and Kim, {J. K.} and Kim, {Ju Jin} and Jinhee Kim and Yoo, {Kyoung Hwa}",

year = "2003",

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journal = "Journal of the Korean Physical Society",

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T1 - Tunnel Magnetoresistance in Mesoscopic Ni/Co/Ni Magnetic Double Junctions with AlOx Tunnel Barriers

AU - So, Hye Mi

AU - Kim, J. K.

AU - Kim, Ju Jin

AU - Kim, Jinhee

AU - Yoo, Kyoung Hwa

PY - 2003/10

Y1 - 2003/10

N2 - We have studied the electrical transport properties of a ferromagnetic single electron transistor consisting of a Ni/Al2O 3/Co/Al2O3/Ni double junction with side control gates. The dc current-voltage characteristics of the double junction show a clear Coulomb blockade effect at low temperatures and the tunnel current exhibits periodic Coulomb oscillations when the gate voltage is varied. The tunnel magnetoresistance curves show characteristic hysteretic peaks due to the different coercivities of the Ni and the Co films. In the Coulomb blockade region, the tunnel magnetoresistance ratio depends sensitively on the bias voltage and temperatures. The magnetoresistance ratio is enhanced by a factor of more than 2 in the Coulomb blockade region, which is consistent with the theoretical prediction based on the co-tunneling process of electrons.

AB - We have studied the electrical transport properties of a ferromagnetic single electron transistor consisting of a Ni/Al2O 3/Co/Al2O3/Ni double junction with side control gates. The dc current-voltage characteristics of the double junction show a clear Coulomb blockade effect at low temperatures and the tunnel current exhibits periodic Coulomb oscillations when the gate voltage is varied. The tunnel magnetoresistance curves show characteristic hysteretic peaks due to the different coercivities of the Ni and the Co films. In the Coulomb blockade region, the tunnel magnetoresistance ratio depends sensitively on the bias voltage and temperatures. The magnetoresistance ratio is enhanced by a factor of more than 2 in the Coulomb blockade region, which is consistent with the theoretical prediction based on the co-tunneling process of electrons.

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JF - Journal of the Korean Physical Society

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Tunnel Magnetoresistance in Mesoscopic Ni/Co/Ni Magnetic Double Junctions with AlO_x Tunnel Barriers

Abstract

All Science Journal Classification (ASJC) codes

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