Their study was conducted on La Soufrière volcano in Guadeloupe, and provided a 3D view of its internal structure to a depth of 10 kilometres, with a precision on the order of 100 metres. It confirmed the existence, in the depths beneath La Soufrière, of a large magma storage zone structured by a network of interconnected magma pockets. This imaging tool can be applied to any geophone network and could record volcanic activity much more thoroughly, thereby providing greater anticipation of volcanic eruptions throughout the world.
The study recently appeared in the journal
1 From the Langevin Institute (CNRS/ESPCI - PSL Université) and the Paris Institute of Planetary Physics (CNRS/Université Paris Cité).
Matrix imaging as a tool for high-resolution monitoring of deep volcanic plumbing systems with seismic noise. Elsa Giraudat, Arnaud Burtin, Arthur Le Ber, Mathias Fink, Jean-Christophe Komorowski & Alexandre Aubry. , 16 September 2024.
https://doi.org/10.1038/s43247’024 -01659-2