Transient Electromagnetics at Stromboli volcano, Italy: a virtual and field experiment

Among others, the transient electromagnetic method (TEM) is used in investigating volcanic systems. It is capable of imaging conductive structures, such as hydrothermal systems and magmatic pathways, which are of great volcanological interest since they are attributed a key role in volcanic eruptions. Based on this motivation, we aim to investigate the medium depth resistivity structure of Stromboli volcano, Italy. Its persistent activity makes it an ideal target to investigate whether TEM can image changes in the subsurface conductivity structure associated with volcanic eruptions.
In order to determine a reasonable measurement configuration, we conduct so-called virtual experiments, i.e., three-dimensional TEM simulations on a digital elevation model. The sophisticated routine combines vectoral finite elements for spatial discretization and a time integration based on a Krylov subspace method. Furthermore, in order to minimize computational cost and run-time, automated adaptive mesh refinement is included.
Within the presentation, we introduce our modelling workflow and simulation routine, and link our numerical findings to the results of our field measurement at Stromboli volcano, Italy, in June 2019.