A high-resolution multi-fold wide-angle seismic survey carried out across the Irpinia fault, Southern Italy, yields new information about the shallow structure of this normal fault that was reactivated in 1980. The fault zone is imaged to a depth of about 60 m by using a non-linear tomographic technique that is specially designed to image strongly heterogeneous media. Results confirm the location of the fault, as previously inferred by a trench excavated in soft soils, and clearly delineates a 30-35 m step in the bedrock. This single step is indicative of a narrow fault zone, which corresponds upward to warped soils exposed in the trench, thus demonstrating that the near-surface warping is directly related to a brittle faulting in the bedro...
Range-bounding normal faults can present significant challenges for seismic exploration. This is the...
The Vettore–Bove normal fault system in central Italy ruptured during the 2016 MW 6.5 Norcia earthqu...
New fault trace mapping and structural survey of the active faults outcropping within the epicentral...
A high-resolution multi-fold wide-angle seismic survey carried out across the Irpinia fault, Souther...
A high-resolution multi-fold wide-angle seismic survey conducted across the Irpinia fault, Southern ...
A high-resolution multi-fold wide-angle seismic survey carried out across the Irpinia fault, Souther...
Pre-Stack Depth Migration (PSDM) is an effective tool to improve seismic reflection imaging of later...
A two-step imaging procedure, including pre-stack depth migration (PSDM) and non-linear multiscale r...
The Southern Apennines range of Italy presents significant challenges for active fault detection du...
We present the first high-resolution ultrashallow seismic image of a normal fault segment that ruptu...
We investigate the seismic structure of the Mw5.7, 2002 Molise earthquake area in order to understan...
Repeated tomographic inversions in time (the so called 4D tomography) track physical properties and ...
Local Earthquake Tomography (LET) is a useful tool for imaging lateral heterogeneities in the upper ...
Identification of an active fault and the local versus regional present-day stress field in the Irpi...
Range-bounding normal faults can present significant challenges for seismic exploration. This is the...
The Vettore–Bove normal fault system in central Italy ruptured during the 2016 MW 6.5 Norcia earthqu...
New fault trace mapping and structural survey of the active faults outcropping within the epicentral...
A high-resolution multi-fold wide-angle seismic survey carried out across the Irpinia fault, Souther...
A high-resolution multi-fold wide-angle seismic survey conducted across the Irpinia fault, Southern ...
A high-resolution multi-fold wide-angle seismic survey carried out across the Irpinia fault, Souther...
Pre-Stack Depth Migration (PSDM) is an effective tool to improve seismic reflection imaging of later...
A two-step imaging procedure, including pre-stack depth migration (PSDM) and non-linear multiscale r...
The Southern Apennines range of Italy presents significant challenges for active fault detection du...
We present the first high-resolution ultrashallow seismic image of a normal fault segment that ruptu...
We investigate the seismic structure of the Mw5.7, 2002 Molise earthquake area in order to understan...
Repeated tomographic inversions in time (the so called 4D tomography) track physical properties and ...
Local Earthquake Tomography (LET) is a useful tool for imaging lateral heterogeneities in the upper ...
Identification of an active fault and the local versus regional present-day stress field in the Irpi...
Range-bounding normal faults can present significant challenges for seismic exploration. This is the...
The Vettore–Bove normal fault system in central Italy ruptured during the 2016 MW 6.5 Norcia earthqu...
New fault trace mapping and structural survey of the active faults outcropping within the epicentral...