Longitudinal domain wall formation in elongated assemblies of ferromagnetic nanoparticles

Miriam Varón Izquierdo; Marco Beleggia; Jelena Jordanovic; Jakob Schiøtz; Takeshi Kasama; Víctor Puntes; Cathrine Frandsen

doi:10.1038/srep14536

Longitudinal domain wall formation in elongated assemblies of ferromagnetic nanoparticles

Miriam Varón Izquierdo, Marco Beleggia, Jelena Jordanovic, Jakob Schiøtz, Takeshi Kasama, Víctor Puntes, Cathrine Frandsen

Institut Català de Nanociència i Nanotecnologia (ICN2)

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9 Citas (Web of Science)

Resumen

Through evaporation of dense colloids of ferromagnetic ∼13nm Ɛ-Co particles onto carbon substrates, anisotropic magnetic dipolar interactions can support formation of elongated particle structures with aggregate thicknesses of 100-400â €‰nm and lengths of up to some hundred microns. Lorenz microscopy and electron holography reveal collective magnetic ordering in these structures. However, in contrast to continuous ferromagnetic thin films of comparable dimensions, domain walls appear preferentially as longitudinal, i.e., oriented parallel to the long axis of the nanoparticle assemblies. We explain this unusual domain structure as the result of dipolar interactions and shape anisotropy, in the absence of inter-particle exchange coupling.

Idioma original	Inglés
Publicación	Scientific Reports
Volumen	5
DOI	https://doi.org/10.1038/srep14536
Estado	Publicada - 2015

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title = "Longitudinal domain wall formation in elongated assemblies of ferromagnetic nanoparticles",

abstract = "Through evaporation of dense colloids of ferromagnetic ∼13nm Ɛ-Co particles onto carbon substrates, anisotropic magnetic dipolar interactions can support formation of elongated particle structures with aggregate thicknesses of 100-400{\^a} €‰nm and lengths of up to some hundred microns. Lorenz microscopy and electron holography reveal collective magnetic ordering in these structures. However, in contrast to continuous ferromagnetic thin films of comparable dimensions, domain walls appear preferentially as longitudinal, i.e., oriented parallel to the long axis of the nanoparticle assemblies. We explain this unusual domain structure as the result of dipolar interactions and shape anisotropy, in the absence of inter-particle exchange coupling.",

keywords = "Magnetic devices, Magnetic properties and materials",

author = "\{Var{\'o}n Izquierdo\}, Miriam and Marco Beleggia and Jelena Jordanovic and Jakob Schi{\o}tz and Takeshi Kasama and V{\'i}ctor Puntes and Cathrine Frandsen",

year = "2015",

doi = "10.1038/srep14536",

language = "English",

volume = "5",

journal = "Scientific Reports",

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TY - JOUR

T1 - Longitudinal domain wall formation in elongated assemblies of ferromagnetic nanoparticles

AU - Varón Izquierdo, Miriam

AU - Beleggia, Marco

AU - Jordanovic, Jelena

AU - Schiøtz, Jakob

AU - Kasama, Takeshi

AU - Puntes, Víctor

AU - Frandsen, Cathrine

PY - 2015

Y1 - 2015

N2 - Through evaporation of dense colloids of ferromagnetic ∼13nm Ɛ-Co particles onto carbon substrates, anisotropic magnetic dipolar interactions can support formation of elongated particle structures with aggregate thicknesses of 100-400â €‰nm and lengths of up to some hundred microns. Lorenz microscopy and electron holography reveal collective magnetic ordering in these structures. However, in contrast to continuous ferromagnetic thin films of comparable dimensions, domain walls appear preferentially as longitudinal, i.e., oriented parallel to the long axis of the nanoparticle assemblies. We explain this unusual domain structure as the result of dipolar interactions and shape anisotropy, in the absence of inter-particle exchange coupling.

AB - Through evaporation of dense colloids of ferromagnetic ∼13nm Ɛ-Co particles onto carbon substrates, anisotropic magnetic dipolar interactions can support formation of elongated particle structures with aggregate thicknesses of 100-400â €‰nm and lengths of up to some hundred microns. Lorenz microscopy and electron holography reveal collective magnetic ordering in these structures. However, in contrast to continuous ferromagnetic thin films of comparable dimensions, domain walls appear preferentially as longitudinal, i.e., oriented parallel to the long axis of the nanoparticle assemblies. We explain this unusual domain structure as the result of dipolar interactions and shape anisotropy, in the absence of inter-particle exchange coupling.

KW - Magnetic devices

KW - Magnetic properties and materials

UR - https://www.scopus.com/pages/publications/84942684062

U2 - 10.1038/srep14536

DO - 10.1038/srep14536

M3 - Article

C2 - 26416297

SN - 2045-2322

VL - 5

JO - Scientific Reports

JF - Scientific Reports

ER -

Longitudinal domain wall formation in elongated assemblies of ferromagnetic nanoparticles

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