English

Domain wall switching: optimizing the energy landscape

Statistical Mechanics 2009-11-13 v1 Materials Science

Abstract

It has recently been suggested that exchange spring media offer a way to increase media density without causing thermal instability (superparamagnetism), by using a hard and a soft layer coupled by exchange. Victora has suggested a figure of merit xi = 2 E_b/mu_0 m_s H_sw, the ratio of the energy barrier to that of a Stoner-Wohlfarth system with the same switching field, which is 1 for a Stoner-Wohlfarth (coherently switching) particle and 2 for an optimal two-layer composite medium. A number of theoretical approaches have been used for this problem (e.g., various numbers of coupled Stoner-Wohlfarth layers and continuum micromagnetics). In this paper we show that many of these approaches can be regarded as special cases or approximations to a variational formulation of the problem, in which the energy is minimized for fixed magnetization. The results can be easily visualized in terms of a plot of the energy as a function of magnetic moment m_z, in which both the switching field [the maximum slope of E(m_z)] and the stability (determined by the energy barrier E_b) are geometrically visible. In this formulation we can prove a rigorous limit on the figure of merit xi, which can be no higher than 4. We also show that a quadratic anistropy suggested by Suess et al comes very close to this limit.

Keywords

Cite

@article{arxiv.0704.0913,
  title  = {Domain wall switching: optimizing the energy landscape},
  author = {Zhihong Lu and P. B. Visscher and W. H. Butler},
  journal= {arXiv preprint arXiv:0704.0913},
  year   = {2009}
}

Comments

Acccepted for proceedings of Jan. 2007 MMM Meeting, paper BE-04