DocumentCode
964448
Title
The shape, energy, eddy current loss, and relaxation damping of magnetic domain walls in glassy iron wire
Author
Bishop, John E L
Author_Institution
University of Sheffield, Sheffield, England
Volume
13
Issue
5
fYear
1977
fDate
9/1/1977 12:00:00 AM
Firstpage
1638
Lastpage
1645
Abstract
A magnetostatic model is developed for extended domain boundaries of the type observed by O\´Handley [1] separating opposed axially magnetized sections of glassy iron wire. The domains in any circular wire cross section are separated by a boundary that has the minimum length consistent with their areas, and the distribution of polarization over the wire length is such as to minimize the sum of the domain wall and magnetic divergence energies. The dependence of boundary length
on the wire diameter
, remanent polarization JR , and domain wall energy per unit area γ, is evaluated so that γ may be obtained from measured values of
, and JR . For the glassy iron material [1] γ = 0.76 mJm-2. Eddy current loss and relaxation damping coefficients are calculated for a two-dimensional model with the same cross section and then appropriately averaged to obtain the mean coefficients for the three-dimensional model. It is shown that 55 percent of the losses observed by O\´Handley are due to eddy currents, and attribution of the remainder to relaxation damping yields a value of 6.2 kgm-2s-1for the relaxation damping coefficient indicating a Gilbert damping coefficient
if one assumes the exchange constant
Jm-1. De Blois\´ observations of domain wall motion in iron whiskers [9] are also briefly discussed.
on the wire diameter
, remanent polarization J
, and J
if one assumes the exchange constant
Jm-1. De Blois\´ observations of domain wall motion in iron whiskers [9] are also briefly discussed.Keywords
Amorphous magnetic materials/devices; Eddy current losses; Magnetic domains; Damping; Eddy currents; Iron; Magnetic domain walls; Magnetic domains; Magnetic separation; Magnetostatics; Polarization; Shape; Wire;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/TMAG.1977.1059649
Filename
1059649
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