One major hurdle for understanding earthquake mechanics are observational limitations. Important phenomena like strain localisation, fault dilation, and fault healing are readily studied in rock mechanical laboratory experiments and with numerical models. At the scale of natural earthquakes, however, these phenomena are often unresolvable, even by state-of-the-art observatories. To overcome this limitation, we are currently building the Earthquake Physics Testbed at the Bedretto Underground Laboratory for Geosciences and Geoenergies (BedrettoLab), an experimental testbed where we can activate an extensively instrumented natural fault zone via hydraulic stimulation. The goal of the Fault Activation and Earthquake Rupture (FEAR) project is to induce earthquakes of up to Mw~1.0 on this exceptionally well characterised and instrumented fault zone. Here we summarize the main scientific goals and current FEAR project status, and present first results from conducted experiments. We discuss how this large-scale experimental approach may allow us to tackle both fundamental science as well as practical questions on earthquake physics, induced seismicity and seismic hazard.
Activating a natural fault zone in the Swiss Alps / Meier, Men-Andrin; Selvadurai, Paul; Gischig, Valentin; Hertrich, Marian; Tinti, Elisa; Rinaldi, Antonio Pio; Jalali, Mohammedreza; Spagnuolo, Elena; Zappone, Alba; Dal Zilio, Luca; Pozzi, Giacomo; Massin, Frédérick; Ceccato, Alberto; Shakas, Alexis; Achtziger-Zupančič, Peter; Aretusini, Stefano; Becattini, Viola; Behnen, Kathrin; Bröker, Kai; Clasen Repollés, Victor; Clinton, John; Collettini, Cristiano; Cook, Paul; Cornelio, Chiara; Cua, Georgia; Dahmen, Nikolaj; Dickmann, Jonas; Dresler-Dorn, Fiona; Durand, Virginie; Edme, Pascal; Gholizadeh Doonechaly, Nima; Volpe, Giuseppe; Guglielmi, Yves; Graber, Ivo; Haag, Thomas; Hibbard, Leon; Hochreutener, Rebecca; Jiang, Danyang; Kästli, Philipp; Kövér, Barnabas; Kruszewski, Michal; Lambiase, Aurora; Lanza, Federica; Laurenti, Laura; Lightfoot, Alexandra; Magnabosco, Cara; Marti, Michèle; Maurer, Hansruedi; Meyers, Olivier; Mizrahi, Leila; Mosconi, Francesco; Obermann, Anne; Palgunadi, Kadek; Pezzulli, Edoardo; Plenkers, Katrin; Poggiali, Giulio; Hamdi, Pooya; Rosskopf, Martina; Scarabello, Luca; Schaber, Tom; Schliwa, Nico; Schultz, Ryan; Schwarz, Miriam; Soom, Florian; Supino, Mariano; Tian, Lu; Tuinstra, Katinka; Vargas Meleza, Liliana; Villiger, Linus; Wang, Zhe; Wimez, Mathilde; Ye, Jiayi; Zeller, Stefanie; Zimmermann, Eric; Amann, Florian; Cocco, Massimo; Wiemer, Stefan; Giardini, Domenico. - In: SEISMICA. - ISSN 2816-9387. - 5:1(2026). [10.26443/seismica.v5i1.2065]
Activating a natural fault zone in the Swiss Alps
Tinti, Elisa;Pozzi, Giacomo;Collettini, Cristiano;Volpe, Giuseppe;Laurenti, Laura;Mosconi, Francesco;Poggiali, Giulio;
2026
Abstract
One major hurdle for understanding earthquake mechanics are observational limitations. Important phenomena like strain localisation, fault dilation, and fault healing are readily studied in rock mechanical laboratory experiments and with numerical models. At the scale of natural earthquakes, however, these phenomena are often unresolvable, even by state-of-the-art observatories. To overcome this limitation, we are currently building the Earthquake Physics Testbed at the Bedretto Underground Laboratory for Geosciences and Geoenergies (BedrettoLab), an experimental testbed where we can activate an extensively instrumented natural fault zone via hydraulic stimulation. The goal of the Fault Activation and Earthquake Rupture (FEAR) project is to induce earthquakes of up to Mw~1.0 on this exceptionally well characterised and instrumented fault zone. Here we summarize the main scientific goals and current FEAR project status, and present first results from conducted experiments. We discuss how this large-scale experimental approach may allow us to tackle both fundamental science as well as practical questions on earthquake physics, induced seismicity and seismic hazard.| File | Dimensione | Formato | |
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