Peer-reviewed Journal articles

Ciardo, F., & Rinaldi, A. P. (2022). Impact of injection rate ramp-up on nucleation and arrest of dynamic fault slip. Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 8(1), 1-27.

Fiori, R., Vergne, J., Schmittbuhl, J., & Zigone D. (2023). Monitoring induced microseismicity in an urban context using very small seismic arrays: The case study of the Vendenheim EGS project. Geophysics 2023;88 (5): WB71–WB87.

Passarelli, L., Cesca, S., Nooshiri, N., & Jónsson, S. (2022). Earthquake fingerprint of an incipient subduction of a bathymetric high. Geophysical Research Letters, 49, e2022GL100326.

Porras, J., Pecci, D., Bocchini, G. M., Gaviano, S., De Solda, M., Tuinstra, K., Lanza, F., Tognarelli, A., Stucchi, E., & Grigoli, F. (2024). A semblance-based microseismic event detector for DAS data. Geophysical Journal International, 236 (3): 1716–1727,

Ritz, V.A., Rinaldi, A.P. & Wiemer, S. (2022). Transient evolution of the relative size distribution of earthquakes as a risk indicator for induced seismicity. Commun Earth Environ 3, 249.

Schultz, R., Muntendam-Bos, A., Zhou, W., Beroza, G.  C., & Ellsworth, W.L. (2022). Induced seismicity red-light thresholds for enhanced geothermal prospects in the Netherlands. Geothermics, 106, 102580.

Shi, P., Grigoli, F., Lanza, F., Beroza, G. C., Scarabello, L., & Wiemer, S. (2022). MALMI: an automated earthquake detection and location workflow based on machine learning and waveform migration, Seismol. Res. Lett., XX, 1–17, doi:

Other Publications

Lanza, F., Link, K., Wiemer, S., & Zingg, O. (2022). DEEP Projekt – Innovationen für die Minderung von Risiken bei tiefen Geothermieprojekten. Geothermische Energie, Nr 102, pp 8-11.



All publications available from DEEP can be found here (Zenodo)