6533b7dafe1ef96bd126e1ef

RESEARCH PRODUCT

Self-Trapping of Magnetic Oscillation Modes in Landau Flux-Closure Structures

Sergej A. NepijkoMichael BolteFrederik WegelinGerd SchönhenseChristian SchneiderA. KrasyukHans-joachim Elmers

subject

PermalloyPhysicsMagnetic momentMagnetic domainCondensed matter physicsSpin waveExcited stateHarmonicsddc:550PerpendicularGeneral Physics and AstronomyFundamental frequencyJ

description

We investigated the magnetodynamics in rectangular Permalloy platelets by means of time-resolved x-ray photoemission microscopy. 10 nm thick platelets of size 16 x 32 microm were excited by an oscillatory field along the short side of the sample with a fundamental frequency of 500 MHz and considerable contributions of higher harmonics. Under the influence of the oscillatory field, the Néel wall in the initial classical Landau pattern shifts away from the center, corresponding to an induced magnetic moment perpendicular to the exciting field. This phenomenon is explained by a self-trapping effect of the dominating spin-wave mode when the system is excited just below the resonance frequency. The basic driving mechanism is the maximization of entropy.

yearjournalcountryeditionlanguage
2005-07-29Physical Review Letters
https://doi.org/10.1103/physrevlett.95.207201