Your search keyword '"Virieux, J."' showing total 5 results

1. Assessing the reliability of local earthquake tomography for crustal imaging: 30 yr of records in the Western Alps as a case study

Author

Virieux, J, primary, Paul, A, additional, Langlais, M, additional, Janex, G, additional, Guéguen, P, additional, Helmstetter, A, additional, and Stehly, L, additional

Published

2023

2. Assessing the reliability of local earthquake tomography for crustal imaging: 30 years of records in the Western Alps as a case study

Author

Virieux, J, Paul, A, Langlais, M, Janex, G, Guéguen, P, Helmstetter, A, Stehly, L, Virieux, J, Paul, A, Langlais, M, Janex, G, Guéguen, P, Helmstetter, A, and Stehly, L

Abstract

Local earthquake tomography (LET) is a popular method for inverting arrival time picks of local-regional earthquakes for P- and S-wave velocity and hypocenter parameters in seismically active regions. This popularity is due to some robust and well-documented open-source codes that are sometimes used as black boxes. The availability of a very complete time-pick database on the Western Alps gives us a chance to thoroughly investigate the influence of the numerous processes and parameters involved when applying LET to the Western Alps or similar targets. From a subset of high-quality manual picks (1989-2014), we compute preliminary P and S velocity models that are used to predict arrival times for later events and allow the selected fusion of picks downloaded from different seismological agencies for a consistent 33-year database (1989-2021). Different model reconstructions are proposed by selecting different subsets of the arrival time dataset. Aside data input into the LET, influence of initial stratified or three-dimensional velocity models and related initial earthquake locations is investigated together with grid discretization, Laplacian smoothing and damping parameters in the standard penalty approach commonly used by LET codes. These numerical parameters account for the expected limited resolution of seismic waves due to their finite-frequency content. Parameter selection is handled by the user, whereas frequency impact is only implicit in the onset picks. The earthquake distribution allows a reconstruction down to 40-km depth over an area of ∼ 500x500 km2. Robust features such as the high-velocity Ivrea body anomaly, and a deep low-velocity anomaly associated with crustal thickening underneath the mountain belt survive whatever the tomography strategy and parameters. Finally, a comparison with previous LET reconstructions suggests that finite-frequency content be explicitly incorporated through wave equation tomography to improve spatial resolution. This would

Published

2023

3. Assessing the reliability of local earthquake tomography for crustal imaging: 30 yr of records in the Western Alps as a case study.

Author

Virieux, J, Paul, A, Langlais, M, Janex, G, Guéguen, P, Helmstetter, A, and Stehly, L

Subjects

*EARTHQUAKES, *EARTHQUAKE zones, *SEISMIC waves, *TOMOGRAPHY, *SEISMIC event location, *SEISMIC tomography, *FEATURE selection, *PALEOSEISMOLOGY

Abstract

Local earthquake tomography (LET) is a popular method for inverting arrival time picks of local-regional earthquakes for P - and S -wave velocities and hypocentre parameters in seismically active regions. This popularity is due to some robust and well-documented open-source codes that are sometimes used as black boxes. The availability of a very complete time-pick database on the Western Alps gives us a chance to thoroughly investigate the influence of the numerous processes and parameters involved when applying LET to the Western Alps or similar targets. From a subset of high-quality manual picks (1989–2014), we compute preliminary P and S velocity models that are used to predict arrival times for later events and allow the selected fusion of picks downloaded from different seismological agencies for a consistent 33-yr database (1989–2021). Different model reconstructions are proposed by selecting different subsets of the arrival time data set. Aside data input into the LET, influence of initial stratified or 3-D velocity models and related initial earthquake locations is investigated together with grid discretization, Laplacian smoothing and damping parameters in the standard penalty approach commonly used by LET codes. These numerical parameters account for the expected limited resolution of seismic waves due to their finite-frequency content. Parameter selection is handled by the user, whereas frequency impact is only implicit in the onset picks. The earthquake distribution allows a reconstruction down to 40-km depth over an area of ∼500 × 500 km2. Robust features such as the high-velocity Ivrea body anomaly, and a deep low-velocity anomaly associated with crustal thickening underneath the mountain belt survive whatever the tomography strategy and parameters. Finally, a comparison with previous LET reconstructions suggests that finite-frequency content be explicitly incorporated through wave equation tomography to improve spatial resolution. This would fully exploit observables collected from seismograms, albeit with a significant increase in computer costs. [ABSTRACT FROM AUTHOR]

Published

2024

4. Seismic and Gravity Structure of the Campi Flegrei Caldera, Italy

Author

Francesca Bianco, Paolo Capuano, Edoardo Del Pezzo, Luca De Siena, Nils Maercklin, Guido Russo, Maurizio Vassallo, Jean Virieux, Aldo Zollo, Bianco F., Capuano P., Del Pezzo E., De Siena L., Maercklin N., Russo G., Vassallo M., Virieux J., Zollo A., Orsi G., D'Antonio M., Civetta L., Russo, G., and Zollo, A.

Subjects

3D Gravity modeling, Campi Flegrei Caldera, 3D Seismic Structure, 3D Gravity modeling, 3D Seismic Structure, Campi Flegrei Caldera

Abstract

We present a comprehensive review of seismic and gravity observations and tomographic models produced over the past four decades in order to understand the structure of the crust beneath the Campi Flegrei caldera. We describe the main lithological and structural discontinuities defined through these observations, illustrate their geophysical responses, and discuss the constraints they give to the understanding of magmatic and volcanic processes. Micro-seismic crises related to caldera unrest, and ambient seismic noise measurements provide comprehensive seismic data to local earthquake and ambient noise tomography. In combination with reflection data from onshore and offshore active seismic experiments, velocity tomography reconstructs the elastic properties of the caldera between surface and ~4 km depth. Active experiments also define the depth of lithological interfaces and deep (~7.5 km) partially molten bodies. Seismic attenuation tomography provides information complementary to velocity tomography, defining lateral lithological changes and the geometry of onshore and offshore fluid and magma bodies down to 4 km depth. Once compared with seismic analyses, gravity data highlight lateral changes in the offshore caldera structures. During the deformation and seismo-geochemical unrest (1982–1984), they permitted to reconstruct a minor (

Published

2022

5. The catalogue of 1987-2023 earthquakes in the western (French) Alps north of 43.5°N.

Author

Langlais M, Janex G, Guéguen P, Helmstetter A, Paul A, Virieux J, Maufroy E, and Bouvier JN

Abstract

The western Alpine belt is the focal point of moderate but constant seismic activity. Numerous geodynamic and seismological studies underline the many scientific questions linked to Alpine dynamic processes and the associated rate of deformation resulting from late continental collision phases, and the assessment of seismic hazard and its associated risks. Seismic monitoring in the northern French Alps was launched in 1987 with the installation of the first seismological network, hosted by the Earth Science Observatory at Grenoble Alpes University. Since then, the network has been updated over the years, keeping pace with technical developments in seismic instrumentation, monitoring and data management. The homogenization of information described in this scientific data paper is motivated by the need for a single instrumental seismic catalogue, consisting in arrival times picks and hypocenters using the same velocity model. The final catalogue SISMalp-1987-2023 (CC-BY-4.0) contains 50,822 weak-to-moderate earthquakes with local magnitude between -1.8 and 5.0; it can serve as a basis for all general seismotectonic and risk assessment studies in the region., Competing Interests: Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024