https://doi.org/10.1140/epjb/e2005-00044-4
Crossover component in non critical dissipative sandpile models
Laboratoire de Magnétisme et de Physique des Hautes Énergies,
Département de Physique, Faculté des Sciences, BP 1014, Rabat, Morocco
Corresponding author: a loulidi@fsr.ac.ma
Received:
28
June
2004
Revised:
1
October
2004
Published online:
25
February
2005
The effect of bulk dissipation on non critical sandpile models is studied using both multifractal and finite size scaling analyses. We show numerically that the local limited (LL) model exhibits a crossover from multifractal to self-similar behavior as the control parameters hext and ϵ turn towards their critical values, i.e. and . The critical exponents are not universal and exhibit a continuous variation with ϵ. On the other hand, the finite size effects for the local unlimited (LU), non local limited (NLL), and non local unlimited (NLU) models are well described by the multifractal analysis for all values of dissipation rate ϵ. The space-time avalanche structure is studied in order to give a deeper understanding of the finite size effects and the origin of the crossover behavior. This result is confirmed by the calculation of the susceptibility.
PACS: 05.65.+b – Self-organized systems / 05.70.Jk – Critical point phenomena / 45.70.Ht – Avalanches
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag, 2005