Alessandro Pluchino, Giuseppe Andronico, Andrea Rapisarda
Published 2004-09-30Version 1
We present a Monte Carlo numerical investigation of the Hamiltonian Mean Field (HMF) model. We begin by discussing canonical Metropolis Monte Carlo calculations, in order to check the caloric curve of the HMF model and study finite size effects. In the second part of the paper, we present numerical simulations obtained by means of a modified Monte Carlo procedure with the aim to test the stability of those states at minimum temperature and zero magnetization (homogeneous Quasi Stationary States) which exist in the condensed phase of the model just below the critical point. For energy densities smaller than the limiting value $U\sim 0.68$, we find that these states are unstable, confirming a recent result on the Vlasov stability analysis applied to the HMF model.
Comments: 13 pages, 5 figures, submitted to Physica A
Journal: Physica A 349 (2005) 143
Dynamics and thermodynamics of a simple model similar to self-gravitating systems: the HMF model
Anomalous diffusion and quasistationarity in the HMF model
Violent relaxation in the Hamiltonian Mean Field model: I. Cold collapse and effective dissipation
