Litcius/Paper detail

Superfluid Transition and Specific Heat of the 2D x-y Model: Monte Carlo Simulation

Phong H. Nguyen, Massimo Boninsegni

2021Applied Sciences24 citationsDOIOpen Access PDF

Abstract

We present results of large-scale Monte Carlo simulations of the 2D classical x-y model on the square lattice. We obtain high accuracy results for the superfluid fraction and for the specific heat as a function of temperature, for systems of size L×L with L up to 212. Our estimate for the superfluid transition temperature is consistent with those furnished in all previous studies. The specific heat displays a well-defined peak, whose shape and position are independent of the size of the lattice for L>28, within the statistical uncertainties of our calculations. The implications of these results on the interpretation of experiments on adsorbed thin films of 4He are discussed.

Topics & Concepts

SuperfluiditySpecific heatMonte Carlo methodStatistical physicsPhysicsSquare latticeCondensed matter physicsLattice (music)Dynamic Monte Carlo methodTransition temperatureInterpretation (philosophy)Helium-4Position (finance)Quantum Monte CarloFunction (biology)Monte Carlo method in statistical physicsMonte Carlo molecular modelingHybrid Monte CarloStatistical mechanicsMaterials scienceDistribution functionStatistical weightMean squarePhase transitionHeat capacitySquare (algebra)ThermodynamicsQuantum, superfluid, helium dynamicsPhysics of Superconductivity and MagnetismAdvanced Physical and Chemical Molecular Interactions
Superfluid Transition and Specific Heat of the 2D x-y Model: Monte Carlo Simulation | Litcius