Book contents
- Frontmatter
- Contents
- Preface
- Chapter 1 Earthquakes and fault motion
- Chapter 2 Processing and analysis of recorded seismic signals
- Chapter 3 Mathematical representation of the source
- Chapter 4 Point source models
- Chapter 5 The seismic moment tensor
- Chapter 6 Determination of point source mechanisms
- Chapter 7 Kinematics of extended sources
- Chapter 8 Determination of source dimensions
- Chapter 9 Simple dynamic models
- Chapter 10 Dynamics of fracture. Homogeneous models
- Chapter 11 Fracture dynamics. Heterogeneous models
- Chapter 12 Modeling earthquakes using fracture dynamics
- References
- Index
Preface
Published online by Cambridge University Press: 05 June 2014
- Frontmatter
- Contents
- Preface
- Chapter 1 Earthquakes and fault motion
- Chapter 2 Processing and analysis of recorded seismic signals
- Chapter 3 Mathematical representation of the source
- Chapter 4 Point source models
- Chapter 5 The seismic moment tensor
- Chapter 6 Determination of point source mechanisms
- Chapter 7 Kinematics of extended sources
- Chapter 8 Determination of source dimensions
- Chapter 9 Simple dynamic models
- Chapter 10 Dynamics of fracture. Homogeneous models
- Chapter 11 Fracture dynamics. Heterogeneous models
- Chapter 12 Modeling earthquakes using fracture dynamics
- References
- Index
Summary
Preface
A key problem in seismology is the study of the processes that give rise to earthquakes. It is well established now that earthquakes, with rare exceptions, are caused by shear fracture on pre-existing faults in the Earth. Thus, the modern study of earthquakes and their source mechanisms should be based on the application of dislocation theory and fracture mechanics; this is the point of view taken in this book. General textbooks of seismology have dedicated chapters to this subject, for example, Aki and Richards (1980), Ben Menahem and Singh (1981), Dahlen and Tromp (1998), Gubbins (1990), Lay and Wallace (1995) and Udías (1999). A few books have been written specifically on the subject, for example, Kasahara (1981), Kostrov and Das (1988) and Scholz (1990). Each of these three books has a different approach: Kasahara presents the state of the study of earthquake mechanisms as it was 30 years ago, before modern developments, and does not give details of the mathematical developments. Scholz' approach is that of rock mechanics, with an emphasis on qualitative descriptions and applications to Earth faulting. Finally, Kostrov and Das (1988) gives an excellent presentation of earthquake dynamics, but it may be difficult for students to follow. None of these books includes a detailed presentation and discussion of practical methods for the determination of the earthquake mechanisms together with the theory on which they are based.
- Type
- Chapter
- Information
- Source Mechanisms of EarthquakesTheory and Practice, pp. ix - xPublisher: Cambridge University PressPrint publication year: 2014