Effect of dipolar interactions for domain wall dynamics in magnetic thin films
arXiv:0910.1040 · doi:10.1109/TMAG.2009.2033552
Abstract
We study the effect of long range dipolar forces on the dynamics and morphology of domain walls in magnetic thin films by numerical simulations of the spin-1 random field Ising model. By studying the size distribution of avalanches of domain wall motion arising as a response to quasistatic external driving, we observe a cross-over from the case dominated by short range interactions to another universality class where the long range dipolar forces become important. This crossover is accompanied with a change of the domain wall morphology from a rough wall to walls with zigzag structure.
Accepted for publication in the March 2010 issue IEEE Transactions on Magnetics