256 research outputs found
Critical Exponents for the Ferromagnetism in Colossal Magnetoresistance Manganites
Critical phenomena of ferromagnetic transition in colossal magnetoresistance
manganites are theoretically studied. Concerning the critical exponents for
this transition, there still remains controversy among experimental results. In
order to clarify intrinsic physics of the manganites through a comparison with
theoretical prediction, we investigate the critical phenomena of
double-exchange models by using finite-size scaling analysis on unbiased
numerical results. As a result, we show that the critical exponents of the
ferromagnetic transition of the three-dimensional double-exchange model is
consistent with those of the Heisenberg model, but are distinct from the
mean-field one.Comment: 3pages including 3 figures, submitted to Proc. ICNS 200
Phase Diagram of the Kitaev-type Model on a Decorated Honeycomb Lattice in the Isolated Dimer Limit
An effective model in the isolated dimer limit of the Kitaev-type model on a
decorated honeycomb lattice is investigated at finite temperature. The ground
state of this model is exactly shown to be a chiral spin liquid with
spontaneous breaking of time reversal symmetry. We elaborate the
finite-temperature phase diagram by using the mean-field approximation and
Monte Carlo simulation. We find that the phase transition between the
high-temperature paramagnetic phase and the low-temperature chiral spin liquid
phase is always of second order in the Monte Carlo results, although a
tricritical point appears in the mean-field phase diagram. The finite-size
scaling analysis of the Monte Carlo data indicates that the phase transition
belongs to the two-dimensional Ising universality class.Comment: 8 pages, 4 figure
Orbital and magnetic transitions in geometrically-frustrated vanadium spinels -- Monte Carlo study of an effective spin-orbital-lattice coupled model --
We present our theoretical and numerical results on thermodynamic properties
and the microscopic mechanism of two successive transitions in vanadium spinel
oxides VO (=Zn, Mg, or Cd) obtained by Monte Carlo calculations
of an effective spin-orbital-lattice model in the strong correlation limit.
Geometrical frustration in the pyrochlore lattice structure of V cations
suppresses development of spin and orbital correlations, however, we find that
the model exhibits two transitions at low temperatures. First, a discontinuous
transition occurs with an orbital ordering assisted by the tetragonal
Jahn-Teller distortion. The orbital order reduces the frustration in spin
exchange interactions, and induces antiferromagnetic correlations in
one-dimensional chains lying in the perpendicular planes to the tetragonal
distortion. Secondly, at a lower temperature, a three-dimensional
antiferromagnetic order sets in continuously, which is stabilized by the
third-neighbor interaction among the one-dimensional antiferromagnetic chains.
Thermal fluctuations are crucial to stabilize the collinear magnetic state by
the order-by-disorder mechanism. The results well reproduce the experimental
data such as transition temperatures, temperature dependence of the magnetic
susceptibility, changes of the entropy at the transitions, and the magnetic
ordering structure at low temperatures. Quantum fluctuation effect is also
examined by the linear spin wave theory at zero temperature. The staggered
moment in the ground state is found to be considerably reduced from saturated
value, and reasonably agrees with the experimental data.Comment: 22 pages, 23 figure
Phase competition in the double-exchange model on the frustrated pyrochlore lattice
Competition between the ferromagnetic double-exchange interaction and the
super-exchange antiferromagnetic interaction is theoretically studied in the
presence of geometrical frustration. As increasing the super-exchange
interaction, the ferromagnetic metal becomes unstable, and is taken over by a
cooperative paramagnetic metal, in sharp contrast with a discontinuous
transition to the antiferromagnetic insulator in the absence of frustration. In
the critical region, the system exhibits a peculiar temperature-independent
behavior with highly incoherent transport, suggesting a large residual entropy
at low temperatures. We discuss the relevance of the results to the
pressure-induced behaviors in Mo pyrochlore oxides [S. Iguchi et al., Phys.
Rev. Lett. 102, 136407 (2009)].Comment: 5 pages, 5 figures, accepted for publication in Phys. Rev. Let
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