The Complex Faulting Process of Earthquakes: 16 (Modern Approaches in Geophysics, 16) - Hardcover

Koyama, J.

 
9780792344995: The Complex Faulting Process of Earthquakes: 16 (Modern Approaches in Geophysics, 16)

Synopsis

In seismology an earthquake source is described in terms of a fault with a particular rupture size. The faulting process of large earthquakes has been investigated in the last two decades through analyses of long-period seismo­ grams produced by advanced digital seismometry. By long-period far-field approximation, the earthquake source has been represented by physical parameters such as s~ismic moment, fault dimension and earthquake mag­ nitude. Meanwhile, destruction often results from strong ground motion due to large earthquakes at short distances. Since periods of strong ground motion are far shorter than those of seismic waves at teleseismic distances, the theory of long-period source process of earthquakes cannot be applied directly to strong ground motion at short distances. The excitation and propagation of high-frequency seismic waves are of special interest in recent earthquake seismology. In particular, the descrip­ tion and simulation of strong ground motion are very important not only for problems directly relevant to earthquake engineering, but also to the frac­ ture mechanics of earthquake faulting. Understanding of earthquake sources has been developed by investigating the complexity of faulting processes for the case of large earthquakes. Laboratory results on rock failures have also advanced the understanding of faulting mechanisms. Various attempts have been made to simulate, theoretically and empirically, the propagation of short-period seismic waves in the heterogeneous real earth.

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Synopsis

This book seeks to extend our understanding of the faulting process of natural earthquakes as a complex system. The complex faulting process is generally described by considering a deterministic source (coherent rupture) and a stochastic source. Long-period and short-period approximations provide the scaling law of deterministic and stochastic source parameters of natural earthquakes in a general manner. New concepts of stochastic scaling and non-linear scaling law are introduced to represent such complex phenomena of earthquake activities at local, regional and global levels. There are three modes of complex systems derived from stochastic scaling, which characterize the minimum total power (energy) of the system. These systems predict corresponding power spectra of l/f, Kolmogorov and Lorentz types. Since the stochastic scaling is general, the theory can also be applied to the physics of complex systems in nature.

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9789048148295: The Complex Faulting Process of Earthquakes: 16 (Modern Approaches in Geophysics, 16)

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ISBN 10:  9048148294 ISBN 13:  9789048148295
Publisher: Springer, 2010
Softcover