602 research outputs found
Biconical structures in two-dimensional anisotropic Heisenberg antiferromagnets
Square lattice Heisenberg and XY antiferromagnets with uniaxial anisotropy in
a field along the easy axis are studied. Based on ground state considerations
and Monte Carlo simulations, the role of biconical structures in the transition
region between the antiferromagnetic and spin--flop phases is analyzed. In
particular, adding a single--ion anisotropy to the XXZ antiferromagnet, one
observes, depending on the sign of that anisotropy, either an intervening
biconical phase or a direct transition of first order separating the two
phases. In case of the anisotropic XY model, the degeneracy of the ground
state, at a critical field, in antiferromagnetic, spin--flop, and bidirectional
structures seems to result, as in the case of the XXZ model, in a narrow
disordered phase between the antiferromagnetic and spin--flop phases, dominated
by bidirectional fluctuations.Comment: 4 pages, 5 figures, accepted by Phys. Rev.
Critical phenomena at perfect and non-perfect surfaces
The effect of imperfections on surface critical properties is studied for
Ising models with nearest-neighbour ferromagnetic couplings on simple cubic
lattices. In particular, results of Monte Carlo simulations for flat, perfect
surfaces are compared to those for flat surfaces with random, 'weak' or
'strong', interactions between neighbouring spins in the surface layer, and for
surfaces with steps of monoatomic height. Surface critical exponents at the
ordinary transition, in particular , are found to be
robust against these perturbations.Comment: 7 pages, 13 figures, submitted to European Physical Journal
Mean-field phase diagrams of compounds
Magnetic-field -- temperature phase diagrams of the axial
next-nearest-neighbor Ising model are calculated within the framework of a
Landau-type expansion of the free energy derived from molecular-field theory.
Good qualitative agreement is found with recently reported results on
body-centered-tetragonal . This work is expected to also be relevant
for related compounds.Comment: J1K 2R1 8 pages (RevTex 3.0), 2 figures available upon request,
Report# CRPS-94-0
Classical and quantum two-dimensional anisotropic Heisenberg antiferromagnets
The classical and the quantum, spin $S=1/2, versions of the uniaxially
anisotropic Heisenberg antiferromagnet on a square lattice in a field parallel
to the easy axis are studied using Monte Carlo techniques. For the classical
version, attention is drawn to biconical structures and fluctuations at low
temperatures in the transition region between the antiferromagnetic and
spin-flop phases. For the quantum version, the previously proposed scenario of
a first-order transition between the antiferromagnetic and spin-flop phases
with a critical endpoint and a tricritical point is scrutinized.Comment: 5 pages, 7 figures, accepted by Phys. Rev.
Ising antiferromagnet with mobile, pinned and quenched defects
Motivated by recent experiments on (Sr,Ca,La)_14 Cu_24 O_41, a
two-dimensional Ising antiferromagnet with mobile, locally pinned and quenched
defects is introduced and analysed using mainly Monte Carlo techniques. The
interplay between the arrangement of the defects and the magnetic ordering as
well as the effect of an external field are studied.Comment: 10 pages, 6 figures. Condensed Matter Physics (Festschrift in honour
of R. Folk
Phase diagrams of Ising films with competing interactions
The axial next-nearest-neighbour Ising (ANNNI) model of finite thickness is
studied. Using mean-field theory, Monte Carlo simulations, and low-temperature
analyses, phase diagrams are determined, with a distinct phase diagram for each
film thickness. The robustness of the phase diagrams against varying the
couplings in the surface layers is analysed.Comment: 7 pages, 6 figures included, version to appear in Eur. Phys. J.
Quenched charge disorder in CuO2 spin chains: Experimental and numerical studies
We report on measurements of the magnetic response of the anisotropic CuO_2
spin chains in lightly hole-doped La_x (Ca,Sr)_14-x Cu_24 O_41, x>=5. The
experimental data suggest that in magnetic fields B >~ 4T (applied along the
easy axis) the system is characterized by short-range spin order and
quasi-static (quenched) charge disorder. The magnetic susceptibility chi(B)
shows a broad anomaly, which we interpret as the remnant of a spin-flop
transition. To corroborate this idea, we present Monte Carlo simulations of a
classical, anisotropic Heisenberg model with randomly distributed, static
holes. Our numerical results clearly show that the spin-flop transition of the
pure model (without holes) is destroyed and smeared out due to the disorder
introduced by the quasi-static holes. Both the numerically calculated
susceptibility curves chi(B) and the temperature dependence of the position of
the anomaly are in qualitative agreement with the experimental data.Comment: 10 pages, REVTeX4. 11 figures; v2: Fig.2 replaced, small changes in
Figs.1 and 11; minor revisons in Sec. III.C; accepted by Phys. Rev.
Comment on "Frustrating interactions and broadened magnetic interactions in the edge-sharing CuO_2 chains in La_5 Ca_9 Cu_24 O_41"
Using Monte Carlo techniques, we show that the two--dimensional anisotropic
Heisenberg model reproducing nicely inelastic neutron scattering measurements
on La_5 Ca_9 Cu_24 O_41 (Matsuda et al. [Phys. Rev. B 68, 060406(R) (2003)])
seems to be insufficient to describe correctly measurements on thermodynamic
quantities like the magnetization or the susceptibility. Possible reasons for
the discrepancy are suggested.Comment: 3 pages, 2 EPS figures; part (ii) rewritten, some typos corrected;
final version that has been accepted for publication in Phys. Rev.
Ising thin films with modulations and surface defects
Properties of magnetic films are studied in the framework of Ising models. In
particular, we discuss critical phenomena of ferromagnetic Ising films with
straight lines of magnetic adatoms and straight steps on the surface as well as
phase diagrams of the axial next-nearest neighbour Ising (ANNNI) model for thin
films exhibiting various spatially modulated phases.Comment: 6 pages, 4 figures include
Step fluctuations and random walks
The probability distribution p(l) of an atom to return to a step at distance
l from the detachment site, with a random walk in between, is exactly
enumerated. In particular, we study the dependence of p(l) on step roughness,
presence of other reflecting or absorbing steps, interaction between steps and
diffusing atom, as well as concentration of defects on the terrace neighbouring
the step. Applying Monte Carlo techniques, the time evolution of equilibrium
step fluctuations is computed for specific forms of return probabilities.
Results are compared to previous theoretical and experimental findings.Comment: 16 pages, 6 figure
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