Pageoph Topical Volumes
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Physics of Megathrust Earthquakes

Editors: Barbot, Sylvain (Ed.)

  • Provides unique insights into subduction-zone earthquakes from geology, rock mechanics, and numerical simulations
  • Contains a rich analysis of the mechanics of the seismic cycle at subduction zones
  • Contains complementary studies on the various periods of the seismic cycle, including creep, slow and fast earthquakes, and postseismic deformation
  • Gathers new insights into megathrust earthquakes from a combination of observation and numerical simulations
  • Provides new analysis of deformation before, during, and after giant earthquakes
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ソフトカバー ¥9,125
価格の適用国: Japan (日本円価格は個人のお客様のみ有効) (小計)
  • ISBN 978-3-030-43571-4
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この書籍について

This topical volume on the physics of megathrust earthquakes investigates many aspects of the earthquake phenomenon, from the geodynamic setting of subduction zones, to interseismic and postseismic deformation, slow-slip events, dynamic rupture, and tsunami generation.

The dynamics of the seismic cycle at megathrusts is rich in various types of earthquakes, many of which  only recently discovered. Our early understanding of the earthquake phenomenon was a type of stick-slip motion, where the fault is loaded by tectonic forces for an extended period, followed by rapid failure. Extensive seismic and geodetic monitoring of subduction zones has revealed a much more varied seismic behavior, where episodic fault slip can occur at any slip velocity between the background loading rate, of the order of a few atoms per second, and the fast seismic range, about a meter per second. Events that fill the gap between slow creep and fast ruptures include a host of slow earthquakes. Subduction zones therefore provide a natural laboratory to better understand the physics of earthquakes and faulting. 
 

Previously published in Pure and Applied Geophysics, Volume 176, Issue 9, 2019

The chapters “Interseismic Coupling and Slow Slip Events on the Cascadia Megathrust”, “Effect of Slip-Weakening Distance on Seismic–Aseismic Slip Patterns”, “Physics-Based Scenario of Earthquake Cycles on the Ventura Thrust System, California: The Effect of Variable Friction and Fault Geometry”, and “A Secondary Zone of Uplift Due to Megathrust Earthquakes” are available as open access articles under a CC BY 4.0 license at link.springer.com  

著者について

Sylvain Barbot is an Assistant Professor at the University of Southern California, Los Angeles, USA, where he conducts research on lithosphere dynamics and the seismic cycle. His current research interests include the micromechanics of friction, the rheology of plastic flow, and crustal deformation. He uses numerical simulations to explain geodetic observations, seismological data, and laboratory measurements. His long-term goal is to understand the mechanics of rock deformation at various time and length scales to explain the earthquake phenomenon.

書籍の購入

ソフトカバー ¥9,125
価格の適用国: Japan (日本円価格は個人のお客様のみ有効) (小計)
  • ISBN 978-3-030-43571-4
  • 個人のお客様には、世界中どこでも配送料無料でお届けします。
  • Immediate ebook access, if available*, with your print order
  • Usually dispatched within 3 to 5 business days.

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書誌情報

Bibliographic Information
Book Title
Physics of Megathrust Earthquakes
Editors
  • Sylvain Barbot
Series Title
Pageoph Topical Volumes
Copyright
2020
Publisher
Birkhäuser Basel
Copyright Holder
Springer Nature Switzerland AG
ソフトカバー ISBN
978-3-030-43571-4
Series ISSN
2504-3625
Edition Number
1
Number of Pages
V, 256
Number of Illustrations
14 b/w illustrations, 115 illustrations in colour
Additional Information
PB spin-off book from the journal Pure and Applied Geophysics, Volume 176, Issue 9, 2019
Topics

*immediately available upon purchase as print book shipments may be delayed due to the COVID-19 crisis. ebook access is temporary and does not include ownership of the ebook. Only valid for books with an ebook version. Springer Reference Works are not included.