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MA: Fachverband Magnetismus
MA 27: Spin Structures and Magnetic Phase Transitions
MA 27.6: Vortrag
Donnerstag, 25. März 2010, 18:30–18:45, H10
Skyrmion textures in noncentrosymmetric cubic helimagnets — •Andrey A. Leonov, Alexei N. Bogdanov, and Ulrich K. Rößler — IFW Dresden, P.O.B. 270116, D-01171 Dresden
In noncentrosymmetric magnetic systems,
chiral Dzyaloshinskii-Moriya (DM) interactions
give rise to one-dimensional (cycloids and conical helices),
two-dimensional (baby-Skyrmions), and three-dimensional
(Hopfions) modulated and localized structures with a
fixed sense of rotation.
Within the standard phenomenological (Dzyaloshinskii) theory [1],
which includes only basic isotropic interactions
the conical phase is a global minimum.
Other modulated textures exist only as metastable states.
Detailed numerical analysis on two dimensional models
shows that bound Skyrmion states arise
as hexagonal lattices of ±π-Skyrmions or
square staggered lattices of π/2-Skyrmions.
In real materials additional magnetic couplings
(for example, uniaxial or exchange anisotropy)
can render Skyrmionic states into
thermodynamically stable phases.
The transitions between different Skyrmionic and other modulated
phases is generally first order, which should be discernible
as hysteresis of magnetization processes.
The model results show that diverse Skyrmionic textures
may underlie the exotic magnetic phenomena of “partial order”
or the field-driven “A-phase” observed in MnSi
and other cubic helimagnets.
[1] U.K.Rößler, A.N.Bogdanov, C.Pfleiderer,
Nature (London) 442, 797 (2006);
U. K. Rößler, A. A. Leonov, A. N. Bogdanov, J. Phys.,
in press; arXiv: 0907.3651v2 (2009).