Anisotropy, magnetic domains and magnetization reversal of nanostripes and nanosquares patterned by atomic saw on epitaxial Fe layers

L. Ressier; H. Jaffres; E. Snoeck; D. Bertrand; A. R. Fert; J. P. Peyrade; A. Schuhl; F. Nguyen Van Dau

doi:10.4028/www.scientific.net/msf.269-272.955

Anisotropy, magnetic domains and magnetization reversal of nanostripes and nanosquares patterned by atomic saw on epitaxial Fe layers

L. Ressier
, H. Jaffres
, E. Snoeck
, D. Bertrand
, A. R. Fert
, J. P. Peyrade
, A. Schuhl
, F. Nguyen Van Dau

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

Abstract

The use of dislocations as atomic saws has allowed us to obtain artificial magnetic systems with reduced lateral size. According to the deformation conditions, we have realised surface stepped film, nanostripes or nanosquares from thin epitaxial Fe layers deposited on (001) MgO substrate. We show that, concerning the stripes, a strong uniaxial magnetic anisotropy (ranging from 8 to 14 ×10⁵ erg/cm³) is surprisingly present with the in-plane easy axis perpendicular to the stripes. We demonstrate the role played by the relaxation of the elastic strain field at interfaces. In nanosquares, as the fourfold cubic symmetry is recovered, a particular magnetization reversal is now governed by nucleation phenomena with the appearance of 180 and 90 domain walls. «Checkerboard» domain patterns are observed by optical Kerr microscopy.

Original language	English
Pages (from-to)	955-960
Number of pages	6
Journal	Materials Science Forum
Volume	269-272
Issue number	PART 2
DOIs	https://doi.org/10.4028/www.scientific.net/msf.269-272.955
Publication status	Published - 1 Jan 1998
Externally published	Yes

Keywords

Anisotropy
HREM
Interface
Magnetism
Magnetoelastic effects
Nanostructures

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10.4028/www.scientific.net/msf.269-272.955

Cite this

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title = "Anisotropy, magnetic domains and magnetization reversal of nanostripes and nanosquares patterned by atomic saw on epitaxial Fe layers",

abstract = "The use of dislocations as atomic saws has allowed us to obtain artificial magnetic systems with reduced lateral size. According to the deformation conditions, we have realised surface stepped film, nanostripes or nanosquares from thin epitaxial Fe layers deposited on (001) MgO substrate. We show that, concerning the stripes, a strong uniaxial magnetic anisotropy (ranging from 8 to 14 ×105 erg/cm3) is surprisingly present with the in-plane easy axis perpendicular to the stripes. We demonstrate the role played by the relaxation of the elastic strain field at interfaces. In nanosquares, as the fourfold cubic symmetry is recovered, a particular magnetization reversal is now governed by nucleation phenomena with the appearance of 180 and 90 domain walls. «Checkerboard» domain patterns are observed by optical Kerr microscopy.",

keywords = "Anisotropy, HREM, Interface, Magnetism, Magnetoelastic effects, Nanostructures",

author = "L. Ressier and H. Jaffres and E. Snoeck and D. Bertrand and Fert, \{A. R.\} and Peyrade, \{J. P.\} and A. Schuhl and \{Nguyen Van Dau\}, F.",

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doi = "10.4028/www.scientific.net/msf.269-272.955",

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TY - JOUR

T1 - Anisotropy, magnetic domains and magnetization reversal of nanostripes and nanosquares patterned by atomic saw on epitaxial Fe layers

AU - Ressier, L.

AU - Jaffres, H.

AU - Snoeck, E.

AU - Bertrand, D.

AU - Fert, A. R.

AU - Peyrade, J. P.

AU - Schuhl, A.

AU - Nguyen Van Dau, F.

PY - 1998/1/1

Y1 - 1998/1/1

N2 - The use of dislocations as atomic saws has allowed us to obtain artificial magnetic systems with reduced lateral size. According to the deformation conditions, we have realised surface stepped film, nanostripes or nanosquares from thin epitaxial Fe layers deposited on (001) MgO substrate. We show that, concerning the stripes, a strong uniaxial magnetic anisotropy (ranging from 8 to 14 ×105 erg/cm3) is surprisingly present with the in-plane easy axis perpendicular to the stripes. We demonstrate the role played by the relaxation of the elastic strain field at interfaces. In nanosquares, as the fourfold cubic symmetry is recovered, a particular magnetization reversal is now governed by nucleation phenomena with the appearance of 180 and 90 domain walls. «Checkerboard» domain patterns are observed by optical Kerr microscopy.

AB - The use of dislocations as atomic saws has allowed us to obtain artificial magnetic systems with reduced lateral size. According to the deformation conditions, we have realised surface stepped film, nanostripes or nanosquares from thin epitaxial Fe layers deposited on (001) MgO substrate. We show that, concerning the stripes, a strong uniaxial magnetic anisotropy (ranging from 8 to 14 ×105 erg/cm3) is surprisingly present with the in-plane easy axis perpendicular to the stripes. We demonstrate the role played by the relaxation of the elastic strain field at interfaces. In nanosquares, as the fourfold cubic symmetry is recovered, a particular magnetization reversal is now governed by nucleation phenomena with the appearance of 180 and 90 domain walls. «Checkerboard» domain patterns are observed by optical Kerr microscopy.

KW - Anisotropy

KW - HREM

KW - Interface

KW - Magnetism

KW - Magnetoelastic effects

KW - Nanostructures

U2 - 10.4028/www.scientific.net/msf.269-272.955

DO - 10.4028/www.scientific.net/msf.269-272.955

M3 - Article

AN - SCOPUS:3843056941

SN - 0255-5476

VL - 269-272

SP - 955

EP - 960

JO - Materials Science Forum

JF - Materials Science Forum

IS - PART 2

ER -

Anisotropy, magnetic domains and magnetization reversal of nanostripes and nanosquares patterned by atomic saw on epitaxial Fe layers

Abstract

Keywords

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