A. Hubert scite author profile

Isolated magnetic vortices are stabilized by an antisymmetric exchange interaction, the so-called Dzyaloshinsky interaction, which can be represented as an energy contribution linear in the first spatial derivatives of the magnetization vector. In contrast, vortex lines are demonstrated to be unstable in the bulk of regular uniaxial ferromagnets. They collapse spontaneously under the influence of anisotropy or an applied magnetic field. In reduced units the differential equation for isolated vortices contains two parameters: the reduced magnetic field h along the crystal axis and the material parameter 2 which describes the relative contribution of the Dzyaloshinsky interaction term. Isolated vortices turn out to be always metastable for large fields, independent of R as long as this parameter is positive. At low or negative fields they become unstable by two different mechanisms depending on the %value, but altogether these micromagnetic structures turn out to be stable in a remarkably wide range of parameters. At the end possible applications are considered.Isolierte mikromagnetische Wirbel werden durch eine antisymmetrische Austauschkopplung, eine sogenannte Dzyaloshinsky-Wechselwirkung, stabilisiert. Eine derartige Kopplung laat sich mikromagnetisch als Energiebeitrag darstellen, der linear in den Ortsableitungen des Magnetisierungsfeldes ist. Im Gegensatz dazu wird gezeigt, dai3 Wirbellinien im Innern gewohnlicher einachsiger Ferromagnete instabil sind, da sie spontan unter der Wirkung der magnetischen Anisotropie oder eines angelegten Feldes kollabieren. Die sich ergebende Differentialgleichung hangt in reduzierter Darstellung von zwei Parametern ab: dem reduzierten Feld h entlang der leichten Achse des Kristalls und dem Materialparameter 2, der die relative Starke des Koefizienten der Dzyaloshinsky-Wechselwirkung miBt. Isolierte Magnetisierungswirbel erweisen sich als metastabil in beliebig hohen Feldern, unabhangig von 2, solange dieser Parameter positiv ist. In kleinen oder negativen Feldern werden sie je nach der GroBe von 2 auf Grund zweier verschiedener Mechanismen instabil. Insgesamt weisen diese mikromagnetischen Gebilde aber einen bemerkenswert weiten Stabilitatsbereich auf. Im SchluDkapitel werden Uberlegungen zu moglichen Anwendungen angestellt.

show abstract

Material Parameters for Domain Analysis

Hubert

Schäfer

115

242

View full text Add to dashboard Cite

Domain Observations on FeCrFe Layered Structnres. Evidence for a Biquadratic Coupling Effect

Rührig

Schäfer

Hubert

et al. 1991

Phys. Stat. Sol. (a)

412

162

View full text Add to dashboard Cite

The recently discovercd oscillating exchange effcct in iron-chromium rnultilayers can bcst be studied on an epitaxial iron sandwich with a wcdge shaped chromium interlayer. Domain patterns arc analyzed as wcll as magnetization curves on such samplcs using magnctooptical techniques. Unusual domains are found in zones around thc transitions between ferromagnetic and antifcrromagnetic exchange. Also thc rnagnctij.ation curves for largcr chromium thickness show some peculiar fcaturcs. The interprctation of these patterns invokcs coupling bctween the iron layers which favours a right angle betwccn the magnetization directions in both layers. Such a non-collinear interaction can be derived phenomcnologically from a biquadratic coupling as introduccd earlicr in thc analysis of spin structures in oxidcs. A biquadratic coupling can be understood either as a second order Heisenberg or a sccond order Dzyaloshinskii interaction. In the course of these investigations domain observations proved to be a uscful and scnsitivc method to detcct locally the nature of interactions between fcrromagnetic layers.Die kurzlich cntdecktc oszillicrendc Wechselwirkung in Eisen Chrom-Vielfachschichtcn kann am bcsten an einer cpitaxialcn Schichtanordnung mit ciner kcilformigcn Chromzwischenschicht studiert wcrden. Die auf solchen Proben beobachtbarcn Domanenstrukturen sow.ie dic Magnctisierungskurven werden mit magnctooptischen Vcrfahrcn untcrsucht. Im Bercich der b e r g a n g c zwischen fcrromagnetischer und antifcrromagnetischer Kopplung werden Zonen ungewijhnlicher Muster cntdeckt. Auch die Magnetisierungskurven fur groflerc Chrom-Schichtdickcn zeigtcn cigentumlichc Zuge. Die Beobachtungen lassen sich erkliren, wcnn einc zusltzliche Kopplung der Schichtcn angenommen wird, die cincn rcchten Winkel zwischcn den Magnetisierungsrichtunecn in bciden Schichtcn begunstigt. Phiinomenologisch ergibt sich eine solche nicht-kollineare Kopplung aus dcr Annahme eincr biquadratischcn Wechselwirkung, wic sie fruher in dcr Analyse von Spinstrukturen rnagnetischer Oxide eingcfuhrt wurde. Einc biquadratische Kopplung lant sich entwcder als Heisenberg-oder DryaloshinskiiWechselwirkung zweiter Ordnung interpretiercn. Dornanenbeobachtungen erwiesen sich im Laufe dieser Untersuchung als empfindlichc Methodc zur IJntcrsuchung des Charaktcrs der Kopplung in Vielfachschichten.

show abstract

Magnetic states of small cubic particles with uniaxial anisotropy

Rave

Fabian

Hubert

1998

Journal of Magnetism and Magnetic Materials

146

119

View full text Add to dashboard Cite

Automated supervised classification of variable stars in the CoRoT programme

Debosscher¹,

Sarro

López

et al. 2009

A&A

108

View full text Add to dashboard Cite

Aims. In this work, we describe the pipeline for the fast supervised classification of light curves observed by the CoRoT exoplanet CCDs. We present the classification results obtained for the first four measured fields, which represent a one-year in-orbit operation. Methods. The basis of the adopted supervised classification methodology has been described in detail in a previous paper, as is its application to the OGLE database. Here, we present the modifications of the algorithms and of the training set to optimize the performance when applied to the CoRoT data. Results. Classification results are presented for the observed fields IRa01, SRc01, LRc01, and LRa01 of the CoRoT mission. Statistics on the number of variables and the number of objects per class are given and typical light curves of high-probability candidates are shown. We also report on new stellar variability types discovered in the CoRoT data. The full classification results are publicly available.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

A. Hubert

Thermodynamically stable magnetic vortex states in magnetic crystals

The Relevance of Domains

The stability of vortex-like structures in uniaxial ferromagnets

The Properties of Isolated Magnetic Vortices

Material Parameters for Domain Analysis

Domain Observations on FeCrFe Layered Structnres. Evidence for a Biquadratic Coupling Effect

Magnetic states of small cubic particles with uniaxial anisotropy

Automated supervised classification of variable stars in the CoRoT programme

Contact Info

Product

Resources

About