Correlations in aftershock and seismicity patterns |
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Authors: | Robert Shcherbakov Jordan Van Aalsburg John B. Rundle Donald L. Turcotte |
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Affiliation: | aCenter for Computational Science and Engineering, University of California, Davis, CA 95616, USA;bDepartment of Geology, University of California, Davis, CA 95616, USA |
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Abstract: | Correlations in space and time play a fundamental role in earthquake processes. One direct manifestation of the effects of correlations is the occurrence of aftershocks due to the stress transfer in the vicinity of a main shock. Less obvious and more speculative changes in correlations may occur in the background seismicity before large earthquakes. Using statistical physics it is possible to introduce a measure of spatial correlations through a correlation length. This quantity characterizes how local fluctuations can influence the occurrence of earthquakes over distances comparable with the correlation length. In this work, the physical basis of spatial correlations of earthquakes is discussed in the context of critical phenomena and the percolation problem. The method of two-point correlation function is applied to the seismicity of California. Well defined variations in time of the correlation length are found for aftershock sequences and background seismicity. The scaling properties of our obtained distributions are analyzed with respect to changes in several scaling parameters such as lower magnitude cutoff of earthquakes, the maximum time interval between earthquakes, and the spatial size of the area considered. This scaling behavior can be described in a unified manner by utilizing the multifractal fit. Utilizing the percolation approach the time evolution of clusters of earthquakes is studied with the correlation length defined in terms of the radius of gyration of clusters. This method is applied to the seismicity of California. |
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Keywords: | Earthquakes Two-point correlation function Correlation length Percolation Radius of gyration Multifractal scaling |
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