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Scale-invariant structure of energy fluctuations in real earthquakes

Author

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  • Ping Wang

    (Institute of High Energy Physics, Chinese Academy of Science)

  • Zhe Chang

    (Institute of High Energy Physics, Chinese Academy of Science)

  • Huanyu Wang

    (Institute of High Energy Physics, Chinese Academy of Science)

  • Hong Lu

    (Institute of High Energy Physics, Chinese Academy of Science)

Abstract

Earthquakes are obviously complex phenomena associated with complicated spatiotemporal correlations, and they are generally characterized by two power laws: the Gutenberg-Richter (GR) and the Omori-Utsu laws. However, an important challenge has been to explain two apparently contrasting features: the GR and Omori-Utsu laws are scale-invariant and unaffected by energy or time scales, whereas earthquakes occasionally exhibit a characteristic energy or time scale, such as with asperity events. In this paper, three high-quality datasets on earthquakes were used to calculate the earthquake energy fluctuations at various spatiotemporal scales, and the results reveal the correlations between seismic events regardless of their critical or characteristic features. The probability density functions (PDFs) of the fluctuations exhibit evidence of another scaling that behaves as a q-Gaussian rather than random process. The scaling behaviors are observed for scales spanning three orders of magnitude. Considering the spatial heterogeneities in a real earthquake fault, we propose an inhomogeneous Olami-Feder-Christensen (OFC) model to describe the statistical properties of real earthquakes. The numerical simulations show that the inhomogeneous OFC model shares the same statistical properties with real earthquakes.

Suggested Citation

  • Ping Wang & Zhe Chang & Huanyu Wang & Hong Lu, 2017. "Scale-invariant structure of energy fluctuations in real earthquakes," The European Physical Journal B: Condensed Matter and Complex Systems, Springer;EDP Sciences, vol. 90(11), pages 1-6, November.
  • Handle: RePEc:spr:eurphb:v:90:y:2017:i:11:d:10.1140_epjb_e2017-70702-y
    DOI: 10.1140/epjb/e2017-70702-y
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    Keywords

    Statistical and Nonlinear Physics;

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