Search results for "Square-lattice Ising model"

showing 10 items of 12 documents

Finite-size scaling in a microcanonical ensemble

1988

The finite-size scaling technique is extended to a microcanonical ensemble. As an application, equilibrium magnetic properties of anL×L square lattice Ising model are computed using the microcanonical ensemble simulation technique of Creutz, and the results are analyzed using the microcanonical ensemble finite-size scaling. The computations were done on the multitransputer system of the Condensed Matter Theory Group at the University of Mainz.

Canonical ensembleStatistical ensemblePhysicsMicrocanonical ensembleThermodynamic betaIsothermal–isobaric ensembleCondensed Matter::Statistical MechanicsStatistical and Nonlinear PhysicsIsing modelSquare-lattice Ising modelStatistical mechanicsStatistical physicsMathematical PhysicsJournal of Statistical Physics
researchProduct

GPU accelerated Monte Carlo simulation of the 2D and 3D Ising model

2009

The compute unified device architecture (CUDA) is a programming approach for performing scientific calculations on a graphics processing unit (GPU) as a data-parallel computing device. The programming interface allows to implement algorithms using extensions to standard C language. With continuously increased number of cores in combination with a high memory bandwidth, a recent GPU offers incredible resources for general purpose computing. First, we apply this new technology to Monte Carlo simulations of the two dimensional ferromagnetic square lattice Ising model. By implementing a variant of the checkerboard algorithm, results are obtained up to 60 times faster on the GPU than on a curren…

Numerical AnalysisMulti-core processorPhysics and Astronomy (miscellaneous)Computer scienceApplied MathematicsMonte Carlo methodGraphics processing unitSquare-lattice Ising modelComputer Science ApplicationsComputational scienceComputational MathematicsCUDAModeling and SimulationIsing modelStatistical physicsGeneral-purpose computing on graphics processing unitsLattice model (physics)Journal of Computational Physics
researchProduct

Energy fluctuations and the singularity of specific heat in a 3D Ising model

2004

We study the energy fluctuations in 3D Ising model near the phase transition point. Specific heat is a relevant quantity which is directly related to the mean squared amplitude of the energy fluctuations in the system. We have made extensive Monte Carlo simulations in 3D Ising model to clarify the character of the singularity of the specific heat C v based on the finite-size scaling of its maximal values C v max depending on the linear size of the lattice L . An original iterative method has been used which automatically finds the pseudocritical temperature corresponding to the maximum of C v . The simulations made up to L ≤ 128 with application of the Wolff's cluster algorithm allowed us t…

Phase transitionSingularityCritical phenomenaIsing modelSquare-lattice Ising modelStatistical physicsScalingCritical exponentAnsatzMathematicsSPIE Proceedings
researchProduct

Single-cluster Monte Carlo study of the Ising model on two-dimensional random lattices.

1994

We use the single-cluster Monte Carlo update algorithm to simulate the Ising model on two-dimensional Poissonian random lattices with up to 80,000 sites which are linked together according to the Voronoi/Delaunay prescription. In one set of simulations we use reweighting techniques and finite-size scaling analysis to investigate the critical properties of the model in the very vicinity of the phase transition. In the other set of simulations we study the approach to criticality in the disordered phase, making use of improved estimators for measurements. From both sets of simulations we obtain clear evidence that the critical exponents agree with the exactly known exponents for regular latti…

PhysicsCritical phenomenaQuantum Monte CarloHigh Energy Physics - Lattice (hep-lat)Condensed Matter (cond-mat)FOS: Physical sciencesSquare-lattice Ising modelCondensed MatterHybrid Monte CarloHigh Energy Physics - LatticeIsing modelMonte Carlo method in statistical physicsStatistical physicsCritical exponentMonte Carlo molecular modelingPhysical review. B, Condensed matter
researchProduct

Shape of cross-over between mean-field and asymptotic critical behavior three-dimensional Ising lattice

1999

Abstract Recent numerical studies of the susceptibility of the three-dimensional Ising model with various interaction ranges have been analyzed with a cross-over model based on renormalization-group matching theory. It is shown that the model yields an accurate description of the cross-over function for the susceptibility.

PhysicsCross overMatching (graph theory)Mean field theoryCritical phenomenaIsing latticeGeneral Physics and AstronomyCondensed Matter::Strongly Correlated ElectronsIsing modelSquare-lattice Ising modelFunction (mathematics)Statistical physicsPhysics Letters A
researchProduct

Finite-size tests of hyperscaling.

1985

The possible form of hyperscaling violations in finite-size scaling theory is discussed. The implications for recent tests in Monte Carlo simulations of the d = 3 Ising model are examined, and new results for the d = 5 Ising model are presented.

PhysicsMonte Carlo methodCondensed Matter::Statistical MechanicsSquare-lattice Ising modelMonte Carlo method in statistical physicsIsing modelStatistical physicsScaling theoryCondensed Matter::Disordered Systems and Neural NetworksMonte Carlo molecular modelingPhysical review. B, Condensed matter
researchProduct

Monte Carlo tests of renormalization-group predictions for critical phenomena in Ising models

2001

Abstract A critical review is given of status and perspectives of Monte Carlo simulations that address bulk and interfacial phase transitions of ferromagnetic Ising models. First, some basic methodological aspects of these simulations are briefly summarized (single-spin flip vs. cluster algorithms, finite-size scaling concepts), and then the application of these techniques to the nearest-neighbor Ising model in d=3 and 5 dimensions is described, and a detailed comparison to theoretical predictions is made. In addition, the case of Ising models with a large but finite range of interaction and the crossover scaling from mean-field behavior to the Ising universality class are treated. If one c…

PhysicsPhase transitionCritical phenomenaMonte Carlo methodGeneral Physics and AstronomySquare-lattice Ising modelIsing modelStatistical physicsRenormalization groupCritical exponentScalingPhysics Reports
researchProduct

Scaling Regimes and the Singularity of Specific Heat in the 3D Ising Model

2013

AbstractThe singularity of specific heat CV of the three-dimensional Ising model is studied based on Monte Carlo data for lattice sizes L≤1536. Fits of two data sets, one corresponding to certain value of the Binder cumulant and the other — to the maximum of CV, provide consistent values of C0 in the ansatz CV(L)=C0+ALα/ν at large L, if α/ν=0.196(6). However, a direct estimation from our data suggests that α/ν, most probably, has a smaller value (e.g., α/ν= 0.113(30)). Thus, the conventional power-law scaling ansatz can be questioned because of this inconsistency. We have found that the data are well described by certain logarithmic ansatz.

PhysicsSingularityPhysics and Astronomy (miscellaneous)Lattice (order)Quantum electrodynamicsMonte Carlo methodSquare-lattice Ising modelIsing modelScalingCritical exponentMathematical physicsAnsatzCommunications in Computational Physics
researchProduct

Universality in disordered systems: The case of the three-dimensional random-bond Ising model

2010

We study the critical behavior of the $d=3$ Ising model with bond randomness through extensive Monte Carlo simulations and finite-size scaling techniques. Our results indicate that the critical behavior of the random-bond model is governed by the same universality class as the site- and bond-diluted models, clearly distinct from that of the pure model, thus providing a complete set of universality in disordered systems.

PhysicsStatistical Mechanics (cond-mat.stat-mech)Critical phenomenaMonte Carlo methodFOS: Physical sciencesIsing modelSquare-lattice Ising modelStatistical physicsRenormalization groupScalingRandomnessCondensed Matter - Statistical MechanicsUniversality (dynamical systems)
researchProduct

?Almost? mean-field ising model: An algebraic approach

1991

We study the thermodynamic limit of the algebraic dynamics for an "almost" mean-field Ising model, which is a slight generalization of the Ising model in the mean-field approximation. We prove that there exists a family of "relevant" states on which the algebraic dynamics αt can be defined. This αt defines a group of automorphisms of the algebra obtained by completing the standard spin algebra with respect to the quasiuniform topology defined by our states. © 1991 Plenum Publishing Corporation.

Pure mathematicsGroup (mathematics)Statistical and Nonlinear PhysicsDimension of an algebraic varietySquare-lattice Ising modelalgebraic approachAutomorphismSpin systemCombinatoricsAlgebraic cyclePhysics and Astronomy (all)Thermodynamic limitIsing modelAlgebraic numberthermodynamical limitSettore MAT/07 - Fisica MatematicaMathematical PhysicsStatistical and Nonlinear PhysicMathematicsJournal of Statistical Physics
researchProduct