Global phases are seismic waves that travel through the earth's core before emerging at the surface. Traditionally, global phases are used to obtain subsurface information up to 1 Hz. A recent study, however, found that signal present in the coda of strong, distant earthquakes contains higher frequencies. Quantitative analysis of the coda of earthquakes, of at least magnitude 6, shows that frequencies of, on average, 3 Hz can be found, with the most promising results coming from P- and PKIKP-phases. By autocorrelating the coda of these phases an estimate of the zero-offset reflection response below a seismic station can be retrieved.The method allows to successfully delineate basins in both Argentina and the United States. Even higher frequ...
This thesis presents and discusses the results of ambient seismic noise correlation for two differen...
Dense strong ground motion observations of the shallow Mw 6.6 2004 Mid‐Niigata earthquake, Japan, sh...
We use a novel technique named global-phase seismic interferometry (GloPSI) to image the lithospheri...
Global phases, viz. seismic phases that travel through the Earth?s core, can be used to locally imag...
We have developed an application of passive seismic interferometry (SI) using P-wave coda of local e...
A number of seismic methods exist to image the lithosphere below a collection of receivers, using di...
Generating high-resolution images of the deep Earth remains a challenge. Body waves extracted from n...
The discovery of long-range spatial correlation in earthquake coda and ambient noise records has had...
269 pagesIn a subduction zone, intermediate- and deep-focus earthquakes generate upgoing waves that ...
International audienceDue to a sharp contrast in elastic properties across the basement rocks of sed...
This thesis investigates the potential of passive seismic methods that make use of body waves, and e...
We have developed a new imaging technique of subsurface heterogeneities that uses Sp-waves from natu...
We investigated the applicability of global phases (epicentral distances of ≥ 120° and ≥ 150°) for t...
Passive seismic surveys have long been applied in the context of exploration studies. Our research f...
We investigated the applicability of global phases (epicentral distances of ? 120° and ? 150°) for t...
This thesis presents and discusses the results of ambient seismic noise correlation for two differen...
Dense strong ground motion observations of the shallow Mw 6.6 2004 Mid‐Niigata earthquake, Japan, sh...
We use a novel technique named global-phase seismic interferometry (GloPSI) to image the lithospheri...
Global phases, viz. seismic phases that travel through the Earth?s core, can be used to locally imag...
We have developed an application of passive seismic interferometry (SI) using P-wave coda of local e...
A number of seismic methods exist to image the lithosphere below a collection of receivers, using di...
Generating high-resolution images of the deep Earth remains a challenge. Body waves extracted from n...
The discovery of long-range spatial correlation in earthquake coda and ambient noise records has had...
269 pagesIn a subduction zone, intermediate- and deep-focus earthquakes generate upgoing waves that ...
International audienceDue to a sharp contrast in elastic properties across the basement rocks of sed...
This thesis investigates the potential of passive seismic methods that make use of body waves, and e...
We have developed a new imaging technique of subsurface heterogeneities that uses Sp-waves from natu...
We investigated the applicability of global phases (epicentral distances of ≥ 120° and ≥ 150°) for t...
Passive seismic surveys have long been applied in the context of exploration studies. Our research f...
We investigated the applicability of global phases (epicentral distances of ? 120° and ? 150°) for t...
This thesis presents and discusses the results of ambient seismic noise correlation for two differen...
Dense strong ground motion observations of the shallow Mw 6.6 2004 Mid‐Niigata earthquake, Japan, sh...
We use a novel technique named global-phase seismic interferometry (GloPSI) to image the lithospheri...