Paper detail

Size-frequency distribution and the large deviation function for frequency in simple models of earthquakes: a scaling approach

Fluctuations in the occurrence of large, disastrous earthquakes are important for the study of deviations from the regular behavior of earthquakes. In this study, to assist in our understanding of the irregular behavior of earthquake occurrences, we calculate the large deviation function for the frequency of earthquakes. We study the temporal sequence of the largest earthquakes in simple one-dimensional forest-fire models in which the fluctuations in the loading and fracture processes are taken into consideration. We introduce four different models with fixed trigger sites that represent the points from which ruptures propagate. The size-frequency distributions and scaled large deviation functions for the frequency of the largest earthquakes in the system are calculated and their behaviors are classified. The calculated large deviation functions are compared with those of the homogeneous Poisson process and of the one-site forest-fire model. We find that the large deviation function largely depends on the model parameters and the fixed trigger sites, and in most cases, the large deviation function deviates from that of the homogeneous Poisson process. The relation between the size-frequency distribution and the large deviation function for the frequency is discussed.