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Dynamical invariants in the deterministic fixed-energy sandpile

M. Casartelli, L. Dall'Asta, A. Vezzani and P. Vivo

The European Physical Journal B: Condensed Matter and Complex Systems, 2006, vol. 52, issue 1, 91-105

Abstract: The non-ergodic behavior of the deterministic Fixed Energy Sandpile (DFES), with Bak-Tang-Wiesenfeld (BTW) rule, is explained by the complete characterization of a class of dynamical invariants (or toppling invariants). The link between such constants of motion and the discrete Laplacians properties on graphs is algebraically and numerically clarified. In particular, it is possible to build up an explicit algorithm determining the complete set of independent toppling invariants. The partition of the configuration space into dynamically invariant sets, and the further refinement of such a partition into basins of attraction for orbits, are also studied. The total number of invariant sets equals the graphs complexity. In the case of two dimensional lattices, it is possible to estimate a very regular exponential growth of this number vs. the size. Looking at other features, the toppling invariants exhibit a highly irregular behavior. The usual constraint on the energy positiveness introduces a transition in the frozen phase. In correspondence to this transition, a dynamical crossover related to the halting times is observed. The analysis of the configuration space shows that the DFES has a different structure with respect to dissipative BTW and stochastic sandpiles models, supporting the conjecture that it lies in a distinct class of universality. Copyright EDP Sciences/Società Italiana di Fisica/Springer-Verlag 2006

Keywords: 45.70.-n Granular systems; 05.50.+q Lattice theory and statistics (Ising; Potts; etc.) (search for similar items in EconPapers)
Date: 2006
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DOI: 10.1140/epjb/e2006-00262-2

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