New horizon in the statistical physics of earthquakes: Dragon-king theory and dragon-king earthquakes

Jiawei Li, Didier Sornette, Zhongliang Wu, Hangwei Li
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Abstract

A systematic quantitative investigation into whether the mechanisms of large earthquakes are unique could significantly deepen our understanding of fault rupture and seismicity patterns. This research holds the potential to advance our ability to predict large earthquakes and enhance the effectiveness of disaster prevention and mitigation strategies. In 2009, one of us introduced the dragon-king theory, offering a quantitative framework for identifying and testing extreme outliers-referred to as dragon-king events-that are endogenously generated. This theory provides valuable tools for explaining, predicting, and managing the risks associated with these rare but highly impactful events. The present paper discusses the feasibility of applying this theory to seismology, proposing that dragon-king earthquake events can be identified as outliers to the Gutenberg-Richter law. It also examines several seismological mechanisms that may contribute to the occurrence of these extraordinary events. Although applying the dragon-king theory to seismology presents practical challenges, it offers the potential to significantly enrich statistical seismology. By reexamining the classification of earthquake rupture types through a statistical testing lens and integrating these insights with underlying physical mechanisms, this approach can greatly enhance the analytical tools and depth of research in the field of statistical seismology.
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地震统计物理学的新视野:龙王理论和龙王地震
对大地震的发生机制是否具有独特性进行系统的定量研究,可以大大加深我们对断层和地震模式的理解。这项研究有可能提高我们预测大地震的能力,增强防灾减灾战略的有效性。2009 年,我们中的一位提出了龙王理论,为识别和测试内生的极端异常值(称为龙王事件)提供了一个定量框架。这一理论为解释、预测和管理与这些罕见但影响巨大的事件相关的风险提供了宝贵的工具。本文讨论了将该理论应用于地震学的可行性,提出龙王震事件可被识别为古腾堡-里克特定律的异常值。本文还探讨了可能导致这些异常事件发生的几种地震学机制。尽管将龙王理论应用于地震学面临着实际挑战,但它有可能极大地丰富统计地震学。通过统计检验的视角重新审视地震破裂类型的分类,并将这些见解与潜在的物理机制相结合,这种方法可以极大地增强统计地震学领域的分析工具和研究深度。
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