L. A. N. Amaral, K. B. Lauritsen
Published 1997-05-11Version 1
We investigate sandpile models where the updating of unstable columns is done according to a stochastic rule. We examine the effect of introducing nonlocal relaxation mechanisms. We find that the models self-organize into critical states that belong to three different universality classes. The models with local relaxation rules belong to a known universality class that is characterized by an avalanche exponent $\tau \approx 1.55$, whereas the models with nonlocal relaxation rules belong to new universality classes characterized by exponents $\tau \approx 1.35$ and $\tau \approx 1.63$. We discuss the values of the exponents in terms of scaling relations and a mapping of the sandpile models to interface models.
Comments: 4 pages, including 3 figures
Journal: Phys. Rev. E 56, 231-234 (1997).
Universality Classes in Isotropic, Abelian and non-Abelian, Sandpile Models
Universality in Sandpile Models
Universality classes for purification in nonunitary quantum processes
