Crustal receiver functions have been calculated for a network of 51 three-component broadband seismometers distributed across the British Isles and NW Europe. Over 3200 receiver functions were assembled for 1055 events. For each station, preliminary estimates of crustal thickness and Vp/Vs ratio were obtained from H−κ plots. Stacked receiver functions were then inverted to determine shear wave velocity as a function of depth. Each result was checked by guided forward modelling and by Monte Carlo error analysis. In this way, the robustness of our final calculated velocity profiles was carefully tested. A set of depth migrated profiles was also constructed using an average of 50 events for each station over a range of backazimuths. These prof...
Complementary processing developed by Ban0 (1989), including automatic extrac-tion of reflections an...
We used data from both permanent and temporary seismic networks on Iceland and Greenland to investig...
In November 1979, the Department of Geological Sciences, University of Durham, in conjunction with t...
The onshore crustal and upper mantle velocity structure of the British Isles has been investigated b...
Magmatic underplating at the base of the continental crust is thought to be an important consequence...
A seismic experiment across the British Isles was undertaken to probe the structure of both the crus...
For the past three decades, deep crustal studies of the British Isles have been restricted to the in...
Over the last decades, seismic surface-wave studies have produced increasingly detailed images of th...
A new seismic P-wave velocity model has been constructed for a region of northwest Europe encompassi...
This work presents a teleseismic P-wave receiver function study on 34 stations deployed across Irela...
The crustal structure of Northern England was examined, using mainly the refraction technique. A thr...
We use teleseismic receiver function analysis to constrain the crustal structure beneath the Faroe I...
A regional model of the 3-D variation in seismic P-wave velocity structure in the crust of NW Europe...
Abstract: The Iapetus suture, arguably the most fundamental lineament of British and Irish structure...
We present the first Rayleigh wave group speed maps of the British Isles constructed from ambient se...
Complementary processing developed by Ban0 (1989), including automatic extrac-tion of reflections an...
We used data from both permanent and temporary seismic networks on Iceland and Greenland to investig...
In November 1979, the Department of Geological Sciences, University of Durham, in conjunction with t...
The onshore crustal and upper mantle velocity structure of the British Isles has been investigated b...
Magmatic underplating at the base of the continental crust is thought to be an important consequence...
A seismic experiment across the British Isles was undertaken to probe the structure of both the crus...
For the past three decades, deep crustal studies of the British Isles have been restricted to the in...
Over the last decades, seismic surface-wave studies have produced increasingly detailed images of th...
A new seismic P-wave velocity model has been constructed for a region of northwest Europe encompassi...
This work presents a teleseismic P-wave receiver function study on 34 stations deployed across Irela...
The crustal structure of Northern England was examined, using mainly the refraction technique. A thr...
We use teleseismic receiver function analysis to constrain the crustal structure beneath the Faroe I...
A regional model of the 3-D variation in seismic P-wave velocity structure in the crust of NW Europe...
Abstract: The Iapetus suture, arguably the most fundamental lineament of British and Irish structure...
We present the first Rayleigh wave group speed maps of the British Isles constructed from ambient se...
Complementary processing developed by Ban0 (1989), including automatic extrac-tion of reflections an...
We used data from both permanent and temporary seismic networks on Iceland and Greenland to investig...
In November 1979, the Department of Geological Sciences, University of Durham, in conjunction with t...