Normal view MARC view ISBD view

Seismic ambient noise / edited by Nori Nakata, Lucia Gualtieri and Andreas Fichtner.

Contributor(s): Nakata, Nori, 1984- [editor.] | Gualtieri, Lucia, 1986- [editor.] | Fichtner, Andreas, 1979- [editor.].
Material type: materialTypeLabelBookPublisher: Cambridge : Cambridge University Press, 2019Description: 1 online resource (xxvii, 344 pages) : digital, PDF file(s).Content type: text Media type: computer Carrier type: online resourceISBN: 9781108264808 (ebook).Subject(s): Seismic waves | Seismometry | Earthquake sounds | Seismology -- Research -- MethodologyAdditional physical formats: Print version: : No titleDDC classification: 551.22 Online resources: Click here to access online
Contents:
Visualization of the seismic ambient noise spectrum / D. E. McNamara and R. I. Boaz -- Beamforming and polarisation analysis / M. Gal and A. M. Reading -- Physics of ambient noise generation by ocean waves / F. Ardhuin, L. Gualtieri and E. Stutzmann -- Theoretical foundations of noise interferometry / A. Fichtner and V. C. Tsai -- Overview of pre- and post-processing of ambient-noise correlations / M.H. Ritzwoller and L. Feng -- Locating velocity changes in elastic media with coda wave interferometry / R. Snieder, A. Duran and A. Obermann -- Applications with surface waves extracted from ambient seismic noise / N. M. Shapiro -- Body wave exploration / N. Nakata and K. Nishida -- Noise-based monitoring / C. Sens-Schonfelder and F. Brenguier -- Near-surface engineering / K. Hayashi.
Summary: The seismic ambient field allows us to study interactions between the atmosphere, the oceans and the solid Earth. The theoretical understanding of seismic ambient noise has improved substantially in the last decades, and the number of its applications has increased dramatically. With chapters written by eminent scientists from the field, this book covers a range of topics including ambient noise observations, generation models of their physical origins, numerical modelling and processing methods. The later chapters focus on applications in imaging and monitoring the internal structure of the Earth, including interferometry for time-dependant imaging and tomography. This volume thus provides a comprehensive overview of this cutting-edge discipline for graduate students studying geophysics and for scientists working in seismology and other imaging sciences.
    average rating: 0.0 (0 votes)
No physical items for this record

Title from publisher's bibliographic system (viewed on 01 Mar 2019).

Visualization of the seismic ambient noise spectrum / D. E. McNamara and R. I. Boaz -- Beamforming and polarisation analysis / M. Gal and A. M. Reading -- Physics of ambient noise generation by ocean waves / F. Ardhuin, L. Gualtieri and E. Stutzmann -- Theoretical foundations of noise interferometry / A. Fichtner and V. C. Tsai -- Overview of pre- and post-processing of ambient-noise correlations / M.H. Ritzwoller and L. Feng -- Locating velocity changes in elastic media with coda wave interferometry / R. Snieder, A. Duran and A. Obermann -- Applications with surface waves extracted from ambient seismic noise / N. M. Shapiro -- Body wave exploration / N. Nakata and K. Nishida -- Noise-based monitoring / C. Sens-Schonfelder and F. Brenguier -- Near-surface engineering / K. Hayashi.

The seismic ambient field allows us to study interactions between the atmosphere, the oceans and the solid Earth. The theoretical understanding of seismic ambient noise has improved substantially in the last decades, and the number of its applications has increased dramatically. With chapters written by eminent scientists from the field, this book covers a range of topics including ambient noise observations, generation models of their physical origins, numerical modelling and processing methods. The later chapters focus on applications in imaging and monitoring the internal structure of the Earth, including interferometry for time-dependant imaging and tomography. This volume thus provides a comprehensive overview of this cutting-edge discipline for graduate students studying geophysics and for scientists working in seismology and other imaging sciences.

There are no comments for this item.

Log in to your account to post a comment.