English

Nonergodicity and Central Limit Behavior for Long-range Hamiltonians

Statistical Mechanics 2011-11-10 v3 Astrophysics Nuclear Theory Data Analysis, Statistics and Probability
Authors: A. Pluchino , A. Rapisarda , C. Tsallis
Journal reference: Europhysics Letters, 80 (2007) 26002
Comments: 6 pages 7 figures. Improved version accepted for publication on Europhysics Letters
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Abstract

We present a molecular dynamics test of the Central Limit Theorem (CLT) in a paradigmatic long-range-interacting many-body classical Hamiltonian system, the HMF model. We calculate sums of velocities at equidistant times along deterministic trajectories for different sizes and energy densities. We show that, when the system is in a chaotic regime (specifically, at thermal equilibrium), ergodicity is essentially verified, and the Pdfs of the sums appear to be Gaussians, consistently with the standard CLT. When the system is, instead, only weakly chaotic (specifically, along longstanding metastable Quasi-Stationary States), nonergodicity (i.e., discrepant ensemble and time averages) is observed, and robust qq-Gaussian attractors emerge, consistently with recently proved generalizations of the CLT.

Keywords

nonequilibrium quantum dynamics nonequilibrium statistical mechanics thermodynamics

Cite

@article{arxiv.0706.4021,
  title  = {Nonergodicity and Central Limit Behavior for Long-range Hamiltonians},
  author = {A. Pluchino and A. Rapisarda and C. Tsallis},
  journal= {arXiv preprint arXiv:0706.4021},
  year   = {2011}
}

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