Alan Douglas
Forensic Seismology and Nuclear Test Bans
Alan Douglas
Forensic Seismology and Nuclear Test Bans
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- Produkterinnerung
- Produkterinnerung
Springing from 50 years' experience in forensic seismology research, this book charts the development of seismic data analysis.
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Springing from 50 years' experience in forensic seismology research, this book charts the development of seismic data analysis.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 555
- Erscheinungstermin: 29. April 2013
- Englisch
- Abmessung: 249mm x 175mm x 33mm
- Gewicht: 1202g
- ISBN-13: 9781107033948
- ISBN-10: 1107033942
- Artikelnr.: 36773801
- Verlag: Cambridge University Press
- Seitenzahl: 555
- Erscheinungstermin: 29. April 2013
- Englisch
- Abmessung: 249mm x 175mm x 33mm
- Gewicht: 1202g
- ISBN-13: 9781107033948
- ISBN-10: 1107033942
- Artikelnr.: 36773801
Alan Douglas worked for over 35 years as a seismologist at the Atomic Weapons Establishment, Aldermaston. From 1982 to 2001 he was the Head of the AWE Seismology Group and he continues to act as a consultant to the AWE. For many years he was a Visiting Professor at the University of Reading and is currently a Visiting Professor at University College London. Professor Douglas is the author of over 100 research papers and reports on seismology applied to the verification of nuclear test ban treaties. In 2005 he received the Award for Service to Geophysics from the Royal Astronomical Society, of which he is also a Fellow.
Preface
Prologue
1. Seismology: ancient and modern
2. Statistical solutions to seismological problems
3. Seismograms as time series
4. Seismographs and seismograms
5. Seismometer arrays and processing methods
6. Seismogram interpretation and synthesis
7. Hypocentres and P travel times
8. Seismic magnitudes
9. Seismic source identification
10. Epilogue
Appendix A. P and S radiation from a double-couple source
Appendix B. Normal equations for analysis of variance
Appendix C. Some uses of the FFT
Appendix D. Anelastic attenuation
Appendix E. Transient and steady-state
Appendix F. Seismometer-galvanometer systems
Appendix G. Signal-to-noise improvement
Appendix H. Minimum-power filters
Appendix I. Circular arrays
Appendix J. Geometrical spreading for sP
Appendix K. Fourier integral
Appendix L. Tables of explosions and earthquakes
Appendix M. Album of body-wave seismograms
Appendix N. Exercises
References
Further reading
Index.
Prologue
1. Seismology: ancient and modern
2. Statistical solutions to seismological problems
3. Seismograms as time series
4. Seismographs and seismograms
5. Seismometer arrays and processing methods
6. Seismogram interpretation and synthesis
7. Hypocentres and P travel times
8. Seismic magnitudes
9. Seismic source identification
10. Epilogue
Appendix A. P and S radiation from a double-couple source
Appendix B. Normal equations for analysis of variance
Appendix C. Some uses of the FFT
Appendix D. Anelastic attenuation
Appendix E. Transient and steady-state
Appendix F. Seismometer-galvanometer systems
Appendix G. Signal-to-noise improvement
Appendix H. Minimum-power filters
Appendix I. Circular arrays
Appendix J. Geometrical spreading for sP
Appendix K. Fourier integral
Appendix L. Tables of explosions and earthquakes
Appendix M. Album of body-wave seismograms
Appendix N. Exercises
References
Further reading
Index.
Preface
Prologue
1. Seismology: ancient and modern
2. Statistical solutions to seismological problems
3. Seismograms as time series
4. Seismographs and seismograms
5. Seismometer arrays and processing methods
6. Seismogram interpretation and synthesis
7. Hypocentres and P travel times
8. Seismic magnitudes
9. Seismic source identification
10. Epilogue
Appendix A. P and S radiation from a double-couple source
Appendix B. Normal equations for analysis of variance
Appendix C. Some uses of the FFT
Appendix D. Anelastic attenuation
Appendix E. Transient and steady-state
Appendix F. Seismometer-galvanometer systems
Appendix G. Signal-to-noise improvement
Appendix H. Minimum-power filters
Appendix I. Circular arrays
Appendix J. Geometrical spreading for sP
Appendix K. Fourier integral
Appendix L. Tables of explosions and earthquakes
Appendix M. Album of body-wave seismograms
Appendix N. Exercises
References
Further reading
Index.
Prologue
1. Seismology: ancient and modern
2. Statistical solutions to seismological problems
3. Seismograms as time series
4. Seismographs and seismograms
5. Seismometer arrays and processing methods
6. Seismogram interpretation and synthesis
7. Hypocentres and P travel times
8. Seismic magnitudes
9. Seismic source identification
10. Epilogue
Appendix A. P and S radiation from a double-couple source
Appendix B. Normal equations for analysis of variance
Appendix C. Some uses of the FFT
Appendix D. Anelastic attenuation
Appendix E. Transient and steady-state
Appendix F. Seismometer-galvanometer systems
Appendix G. Signal-to-noise improvement
Appendix H. Minimum-power filters
Appendix I. Circular arrays
Appendix J. Geometrical spreading for sP
Appendix K. Fourier integral
Appendix L. Tables of explosions and earthquakes
Appendix M. Album of body-wave seismograms
Appendix N. Exercises
References
Further reading
Index.