GNGTS 2024 - Atti del 42° Convegno Nazionale

Session 3.2 GNGTS 2024 meters was obtained. Further work will include depth inversion of phase velocity maps, in order to obtain a pseudo-3D Vs model. Acknowledgments This study, made possible by the willingness and support of the Culture Ofce of the Municipality of Padua, was funded under the agreement between the Veneto Regional Secretariat of the Italian Ministry of Culture (MiC) and the CIBA Interdepartmental Research Center of the University of Padua under the umbrella of WCRI SYCURI. References Barone, I., Cassiani, G., Ourabah, A., Boaga, J., Pavoni, M. and Deiana, R.; 2022: Surface wave tomography using dense 3D data around the Scrovegni Chapel in Padua, Italy. Scientfc Reports, v. 12, 11806. doi: 10.1038/s41598-022-16061-1 Barone, I., Cassiani, G., Ourabah, A., Boaga, J., Pavoni, M. and Deiana, R.; 2023: Integratng controlled-source and ambient noise seismic measures for archaeological prospecton: the Scrovegni Chapel case. Geophysical Journal Internatonal, v. 232, pp. 1944–1956. doi: 10.1093/ gji/ggac432 Deiana, R.; 2018: L’importanza dell’approccio multdisciplinare: considerazioni a valle del progeto dell’Università di Padova sulla Cappella degli Scrovegni. In La Cappella degli Scrovegni nell’anfteatro romano di Padova: nuove ricerche e questoni irrisolte, Padova University Press. Heincke, B., Maurer, H., Green, A. G., Willenberg, H., Spillmann, T. and Burlini, L.; 2006: Characterizing an unstable mountain slope using shallow 2D and 3D seismic tomography , GEOPHYSICS, v. 71, n.6, B241-B256. Lin, F.C., Ritzwoller, M.H. and Snieder, R.; 2009: Eikonal tomography: surface wave tomography by phase front tracking across a regional broad-band seismic array. Geophysical Journal Internatonal, v. 177, pp. 1091-1110. doi: 10.1111/j.1365-246X.2009.04105. Corresponding author: ilaria.barone@unipd.it