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Macroscopic control parameter for avalanche models for bursty transport

Mathematical Physics 2009-11-13 v2 Statistical Mechanics math.MP

Abstract

Similarity analysis is used to identify the control parameter RAR_A for the subset of avalanching systems that can exhibit Self- Organized Criticality (SOC). This parameter expresses the ratio of driving to dissipation. The transition to SOC, when the number of excited degrees of freedom is maximal, is found to occur when RA0R_A \to 0. This is in the opposite sense to (Kolmogorov) turbulence, thus identifying a deep distinction between turbulence and SOC and suggesting an observable property that could distinguish them. A corollary of this similarity analysis is that SOC phenomenology, that is, power law scaling of avalanches, can persist for finite RAR_A, with the same RA0R_A \to 0 exponent, if the system supports a sufficiently large range of lengthscales; necessary for SOC to be a candidate for physical (RAR_A finite) systems.

Keywords

Cite

@article{arxiv.0806.1133,
  title  = {Macroscopic control parameter for avalanche models for bursty transport},
  author = {S. C. Chapman and G. Rowlands and N. W. Watkins},
  journal= {arXiv preprint arXiv:0806.1133},
  year   = {2009}
}

Comments

15 pages plus 4 figures. Developed from part of arXiv:0707.3958v2

R2 v1 2026-06-21T10:48:08.302Z