English

Avalanches in the Random Organization Model with long-range interactions

Soft Condensed Matter 2026-03-20 v1

Abstract

Oscillatory sheared suspensions, when observed stroboscopically, exhibit a reversible-irreversible transition as a function of the strain amplitude, which is a kind of absorbing phase transition. So far studies of this transition focused on global quantities, e.g. quantifying the irreversibility on one side of the transition or the time to reach a reversible state on the other side. Here, motivated by the kin depinning transition, we focus on the intermittent dynamics near the transition. We perform simulations of a modified Random Organization Model (ROM), a minimal particle model which we recently adapted to take into account the generic presence of long-range interactions mediated by the fluid, taking the power-law-decay exponent α\alpha as an additional control parameter of the model. We show that at the absorbing phase transition, this model displays power-law-distributed avalanches. We characterize the avalanche statistics in terms of avalanche size, duration and number of particles involved, and we determine the associated exponents. By varying the exponent α\alpha, the fractal dimension of avalanches crosses space dimension dd, inducing a qualitative change of the spatial structure of avalanches, from compact avalanches when interactions have a short range, to sparse avalanches when interactions are long-ranged. Finally, we characterize the clusters within the avalanches, which we also find power-law distributed.

Keywords

Cite

@article{arxiv.2603.18909,
  title  = {Avalanches in the Random Organization Model with long-range interactions},
  author = {T. Jocteur and K. Martens and R. Mari and E. Bertin},
  journal= {arXiv preprint arXiv:2603.18909},
  year   = {2026}
}

Comments

11 pages, 17 figures

R2 v1 2026-07-01T11:28:09.367Z