Gutenberg-Richter-like relations in physical systems

Abstract

We analyze regional earthquake energy statistics from the Southern California and Japan seismic catalogs and find scale-invariant energy distributions characterized by an exponent τ 1.67. To quantify how closely scale-invariant dynamics with different exponent values resemble real earthquakes, we generate synthetic energy distributions over a wide range of τ under conditions of constant activity. Earthquake-like behavior, in a broad sense, is obtained for 1.5 ≤slant τ < 2.0. When energy variations are further restricted to be within a factor of ten relative to real earthquakes, the admissible range narrows to 1.58 ≤slant τ ≤slant 1.76. We identify the physical mechanisms governing the dynamics in the different regimes: fault dynamics characterized by a balance between slow energy accumulation and release through scale-free events in the earthquake-like regime; externally supplied energy relative to a slowly driven fault for τ < 1.5; and dominance of small events in the energy budget for τ > 2

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