Size-dependent reversal of grains in perpendicular magnetic recording media measured by small-angle polarized neutron scattering - Concepedia

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Size-dependent reversal of grains in perpendicular magnetic recording media measured by small-angle polarized neutron scattering

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24

Citations

9

References

2010

Year

S. J. S. Lister, Thomas Thomson, Joachim Kohlbrecher, K. Takano, V. Venkataramana, S. J. Ray, M. P. Wismayer, M. A. de Vries, Y. Ikeda, Stephen Lee

Applied Physics Letters

Magnetic PropertiesEngineeringMagnetic ResonanceMagnetoelastic MaterialsMagnetic MaterialsSmall-angle Neutron ScatteringMagnetismMagnetic Data StorageMagnetic ContributionInformation StorageMagnetic Thin FilmsMaterials SciencePhysicsNanotechnologyLow-dimensional SystemsMagnetic MeasurementGrain DiameterMagnetic MaterialMicro-magnetic ModelingMagnetic MediumSpintronicsNatural SciencesApplied PhysicsCondensed Matter PhysicsSize-dependent ReversalThin FilmsMagnetic DeviceMagnetic Property

Abstract

Polarized small-angle neutron scattering has been used to measure the magnetic structure of a CoCrPt–SiOx thin-film data storage layer, contained within a writable perpendicular recording media, at granular (&lt;10 nm) length scales. The magnetic contribution to the scattering is measured as the magnetization is reversed by an external field, providing unique spatial information on the switching process. A simple model of noninteracting nanomagnetic grains provides a good description of the data and an analysis of the grain-size dependent reversal provides strong evidence for an increase in magnetic anisotropy with grain diameter.

References

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