David Hobbs
Professor
Noncollinear Magnetism
Author
Summary, in English
developing the so called “fully unconstrained” approach
to noncollinear magnetism. This approach allows the
magnetization density within a material to be calculated
as a continuous vector variable of position, as opposed to
using the atomic moment approximation (AMA) where a
fixed quantization direction is assumed for a volume filling sphere surrounding each atomic site, i.e., the
constrained approach. In this paper a number of
applications of the method are reviewed. Initially, only
small clusters of Iron (Fe) and Chromium (Cr) atoms
were studied which nicely illustrated some possible
noncollinear magnetic arrangements. However, later
research has been applied to triangular free-standing Cr
and Manganese (Mn) monolayers and overlayers on Cu
substrates. Finally, noncollinear magnetism has been
investigated within the different phases of Mn, including
the complex α-Mn phase, which has been shown
experimentally to have a noncollinear magnetic structure.
Publishing year
2006
Language
English
Pages
1-6
Publication/Series
Annals of the Marie Curie Fellowship Association
Volume
4
Full text
- Available as PDF - 896 kB
- Download statistics
Document type
Journal article
Publisher
Marie Curie Fellowship Association, Marie Curie Fellowship Association
Topic
- Astronomy, Astrophysics and Cosmology
Keywords
- MagnetismSurface physicsManganese
Status
Published
Research group
- Observational and Theoretical Astrophysics