Study of nanostructured array of antidots using pulsed magnetic fields

D.C. Leitao; J. Ventura; A.M. Pereira; C.T. Sousa; J.M. Moreira; F.C. Carpinteiro; J.B. Sousa; M. Vazquez; J.P. Araujo

doi:10.1007/s10909-009-0098-2

Study of nanostructured array of antidots using pulsed magnetic fields

D.C. Leitao
, J. Ventura (Corresponding author)
, A.M. Pereira
, C.T. Sousa
, J.M. Moreira
, F.C. Carpinteiro
, J.B. Sousa
, M. Vazquez
, J.P. Araujo

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

11 Citaten (Scopus)

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The absence of the superparamagnetic limit in nanostructured antidots makes them strong candidates for ultra-high density recording media. In this work, nanoporous alumina templates (NpATs), with average pore diameters ∼35 nm and separation ∼100 nm, were grown using a two-step anodization method. A Ni ₈₀Fe ₂₀ thin film of 6.5 nm was then sputtered on top of such NpATs, building an antidot network. A detailed study of the magnetoresistance (MR) (fields up to 25 T and temperatures down to 77 K) was performed. The antidot network sample revealed an anomalous MR and R(T) behaviour at T _M ∼250 K arising from a spin-flip transition occurring in a thin iron oxide layer.

Originele taal-2	Engels
Pagina's (van-tot)	245-248
Aantal pagina's	4
Tijdschrift	Journal of Low Temperature Physics
Volume	159
Nummer van het tijdschrift	1
DOI's	https://doi.org/10.1007/s10909-009-0098-2
Status	Gepubliceerd - apr. 2010
Extern gepubliceerd	Ja

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AU - Leitao, D.C.

AU - Ventura, J.

AU - Pereira, A.M.

AU - Sousa, C.T.

AU - Moreira, J.M.

AU - Carpinteiro, F.C.

AU - Sousa, J.B.

AU - Vazquez, M.

AU - Araujo, J.P.

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N2 - The absence of the superparamagnetic limit in nanostructured antidots makes them strong candidates for ultra-high density recording media. In this work, nanoporous alumina templates (NpATs), with average pore diameters ∼35 nm and separation ∼100 nm, were grown using a two-step anodization method. A Ni 80Fe 20 thin film of 6.5 nm was then sputtered on top of such NpATs, building an antidot network. A detailed study of the magnetoresistance (MR) (fields up to 25 T and temperatures down to 77 K) was performed. The antidot network sample revealed an anomalous MR and R(T) behaviour at T M ∼250 K arising from a spin-flip transition occurring in a thin iron oxide layer.

AB - The absence of the superparamagnetic limit in nanostructured antidots makes them strong candidates for ultra-high density recording media. In this work, nanoporous alumina templates (NpATs), with average pore diameters ∼35 nm and separation ∼100 nm, were grown using a two-step anodization method. A Ni 80Fe 20 thin film of 6.5 nm was then sputtered on top of such NpATs, building an antidot network. A detailed study of the magnetoresistance (MR) (fields up to 25 T and temperatures down to 77 K) was performed. The antidot network sample revealed an anomalous MR and R(T) behaviour at T M ∼250 K arising from a spin-flip transition occurring in a thin iron oxide layer.

KW - Antidot arrays

KW - Magnetoresistance

KW - Pulsed magnetic fields

UR - https://www.scopus.com/pages/publications/77950367780

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Study of nanostructured array of antidots using pulsed magnetic fields

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