1,619 research outputs found
Magnetic Field Induced Ordering in Quasi-One-Dimensional Quantum Magnets
Three-dimensional magnetic ordering transitions are studied theoretically in
strongly anisotropic quantum magnets. An external magnetic field can drive
quasi-one-dimensional subsystems with a spin gap into a gapless regime, thus
inducing long-range three-dimensional magnetic ordering due to weak residual
magnetic coupling between the subsystems. Compounds with higher spin degrees of
freedom, such as N-leg spin-1/2 ladders, are shown to have cascades of ordering
transitions. At high magnetic fields, zero-point fluctuations within the
quasi-1D subsystems are suppressed, causing quantum corrections to the ordering
temperature to be reduced.Comment: RevTex, 12 pages with 4 figure
Phase Diagram of Magnetization Reversal Processes in Nanorings
We investigate magnetization reversal processes of magnetic nanorings. Using
a recently developed efficient cartesian coordinates fast multipole method,
magnetization switching phase diagrams are constructed for such structures. We
find that the dominant switching mechanisms strongly depend on the relative
spatial dimensions of the rings, i.e. height, width and radius. Furthermore,
they are found to depend on a characteristic exchange length scale, which is
determined by the competing short-range ferromagnetic and long-range dipolar
interactions in these systems. Detailed simulations allow us to identify three
novel switching mechanisms, which should be useful for building high density
storage systems.Comment: 6 pages, 6 figure
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