Add to ORKGAbstract—The three-dimensional crustal velocity structure in the area of the northwestern Greek mainland was determined by P-wave travel time inversion, applying a two-step tomography procedure. The data set consists of the travel-time residuals of 584 well located earthquakes. In order to improve the initial (reference) velocity model, before the inversion of travel times, the ‘‘minimum 1-D’ ’ model was determined. Several tests were conducted to estimate model stability and hypocenter uncertainties. The velocity distribution in the shallow layers (4 and 7 km) is strongly affected by the crustal thickness variation and the complex tectonics. A first, well-defined velocity discontinuity appears at a depth of 3–6 km, along the Hellenides Mou...
International audienceWe report here the results of a tomographic lithospheric study in the area of ...
At a local scale, travel-time tomography requires a simultaneous inversion of earthquake positions a...
In this study, our aim is to obtain a 3-D velocity model of the Sakarya Basin and its surrounding. F...
Abstract-Three-dimensional velocity structure of the upper crust was determined by inver-sion of P-w...
The three-dimensional velocity structure of the crust in the Aegean sea and the surrounding regions ...
International audienceDuring summer of 1995 local seismicity was recorded in the area around the Gul...
Abstract—The 3-D P-wave velocity structure of the upper crust in the region of western Greece is inv...
International audienceA new three-dimensional delay traveltime tomography is performed to image the ...
International audienceThe Gulf of Corinth (GOC), Greece is a continental rift with high rates of sei...
International audienceWe present the results of a tomographic study performed in the framework of th...
We present a tomographic view of the crust and uppermost mantle beneath the Central Mediterranean ar...
The purpose of this work is to derive a 3-D tomographic image of the shear wave velocity structure o...
International audienceThe Gulf of Corinth (GOC), Greece is a rapidly extending, active continental r...
The three-dimensional P and S wave velocity structures of the crust of the central and western segme...
The 3-D velocity structure beneath the Euro-Mediterranean domain is investigated down to 1200 km by ...
International audienceWe report here the results of a tomographic lithospheric study in the area of ...
At a local scale, travel-time tomography requires a simultaneous inversion of earthquake positions a...
In this study, our aim is to obtain a 3-D velocity model of the Sakarya Basin and its surrounding. F...
Abstract-Three-dimensional velocity structure of the upper crust was determined by inver-sion of P-w...
The three-dimensional velocity structure of the crust in the Aegean sea and the surrounding regions ...
International audienceDuring summer of 1995 local seismicity was recorded in the area around the Gul...
Abstract—The 3-D P-wave velocity structure of the upper crust in the region of western Greece is inv...
International audienceA new three-dimensional delay traveltime tomography is performed to image the ...
International audienceThe Gulf of Corinth (GOC), Greece is a continental rift with high rates of sei...
International audienceWe present the results of a tomographic study performed in the framework of th...
We present a tomographic view of the crust and uppermost mantle beneath the Central Mediterranean ar...
The purpose of this work is to derive a 3-D tomographic image of the shear wave velocity structure o...
International audienceThe Gulf of Corinth (GOC), Greece is a rapidly extending, active continental r...
The three-dimensional P and S wave velocity structures of the crust of the central and western segme...
The 3-D velocity structure beneath the Euro-Mediterranean domain is investigated down to 1200 km by ...
International audienceWe report here the results of a tomographic lithospheric study in the area of ...
At a local scale, travel-time tomography requires a simultaneous inversion of earthquake positions a...
In this study, our aim is to obtain a 3-D velocity model of the Sakarya Basin and its surrounding. F...