Phase Transitions in Spin-1/2 Falicov–Kimball Model on a Two-dimensional Triangular Lattice
Phase transitions from low-temperature (ordered) phases to high-temperature (disordered/
homogeneous) phases for different fillings are studied on a triangular lattice using the spin-
dependent Falicov–Kimball model. Numerical diagonalization and Monte Carlo simulation
methods are used to study thermodynamic properties of the system. It has been observed
that low-temperature ordered phases persist up to a finite temperature and after reaching a
critical temperature (T_c T c), homogeneous phases are observed for all parameter space …
homogeneous) phases for different fillings are studied on a triangular lattice using the spin-
dependent Falicov–Kimball model. Numerical diagonalization and Monte Carlo simulation
methods are used to study thermodynamic properties of the system. It has been observed
that low-temperature ordered phases persist up to a finite temperature and after reaching a
critical temperature (T_c T c), homogeneous phases are observed for all parameter space …
Abstract
Phase transitions from low-temperature (ordered) phases to high-temperature (disordered/homogeneous) phases for different fillings are studied on a triangular lattice using the spin-dependent Falicov–Kimball model. Numerical diagonalization and Monte Carlo simulation methods are used to study thermodynamic properties of the system. It has been observed that low-temperature ordered phases persist up to a finite temperature and after reaching a critical temperature (), homogeneous phases are observed for all parameter space. We have also calculated the temperature dependence of specific heat and observed a sharp jump at indicating the phase transition, and this increases with increase in on-site Coulomb correlation U and electron fillings.
Springer
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