Anomalous diffusion as a signature of collapsing phase in two
  dimensional self-gravitating systems

A. Compagner; Alessandro Torcini; D. K. Chaikovsky; D. Lynden-Bell; E. Floriani; H. A. Posch; J. Klafter; K. Kaneko; K. Kaneko; M. Antoni; Mickaël Antoni; P. A. Martin; P. Hertel; P. Labastie; R. Bettin; R. I. McLachlan; T. Geisel; T. Geisel; T. Geisel; T. H. Solomon; T. S. Lundgren; U. Frisch

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Anomalous diffusion as a signature of collapsing phase in two dimensional self-gravitating systems

Authors: A. Compagner
Alessandro Torcini
D. K. Chaikovsky
D. Lynden-Bell
E. Floriani
H. A. Posch
J. Klafter
K. Kaneko
K. Kaneko
M. Antoni
Mickaël Antoni
P. A. Martin
P. Hertel
P. Labastie
R. Bettin
R. I. McLachlan
T. Geisel
T. Geisel
T. Geisel
T. H. Solomon
T. S. Lundgren
U. Frisch
Publication date: 1 January 1998
Publisher: 'American Physical Society (APS)'
Doi

Abstract

A two dimensional self-gravitating Hamiltonian model made by

N

fully-coupled classical particles exhibits a transition from a collapsing phase (CP) at low energy to a homogeneous phase (HP) at high energy. From a dynamical point of view, the two phases are characterized by two distinct single-particle motions : namely, superdiffusive in the CP and ballistic in the HP. Anomalous diffusion is observed up to a time

\tau

that increases linearly with

N

. Therefore, the finite particle number acts like a white noise source for the system, inhibiting anomalous transport at longer times.Comment: 10 pages, Revtex - 3 Figs - Submitted to Physical Review

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