Distribution of Maximum Velocities in Avalanches Near the Depinning Transition

Michael LeBlanc, Luiza Angheluta, Karin Dahmen, and Nigel Goldenfeld

Phys. Rev. Lett. 109, 105702 – Published 4 September 2012

Abstract

We report exact predictions for universal scaling exponents and scaling functions associated with the distribution of the maximum collective avalanche propagation velocities $v_{m}$ in the mean field theory of the interface depinning transition. We derive the extreme value distribution $P (v_{m} | T)$ for the maximum velocities in avalanches of fixed duration $T$ and verify the results by numerical simulation near the critical point. We find that the tail of the distribution of maximum velocity for an arbitrary avalanche duration, $v_{m}$ , scales as $P (v_{m}) \sim v_{m}^{- 2}$ for large $v_{m}$ . These results account for the observed power-law distribution of the maximum amplitudes in acoustic emission experiments of crystal plasticity and are also broadly applicable to other systems in the mean-field interface depinning universality class, ranging from magnets to earthquakes.

Received 14 April 2012

DOI:https://doi.org/10.1103/PhysRevLett.109.105702

Authors & Affiliations

Michael LeBlanc¹, Luiza Angheluta^1,2, Karin Dahmen¹, and Nigel Goldenfeld¹

¹Department of Physics, Loomis Laboratory of Physics, University of Illinois at Urbana-Champaign, 1110 West Green Street, Urbana, Illinois 61801-3080, USA
²Department of Physics, Physics of Geological Processes, University of Oslo, Norway