Interested in what controls the maximum size and moment magnitude of injection-induced slow slip events? Check our new article with F. Passelègue and @BLecampion.
Link with open access: https://t.co/6U2wOCVSHZ
My new paper is now available online!
We showed that PINNs can successfully estimate the spatially variable friction from GNSS observations.
We also mentioned that the fault friction law can work as a regularization for slip inversion.
https://t.co/qZb9HPEGC1
Happy to share that I will be speaking
at the GEoREST workshop on induced seismicity in Palma de Mallorca, Spain. It is organized by Victor Vilarrasa and his team from 11-13 March. Abstracts can be submitted until 20th January. Hope to see you there! https://t.co/zt5spmte6U
@PierreSeismo Nice read. Thanks for sharing, Pierre!
This may be a complementary read yet from a rock mechanics (engineering) perspective: https://t.co/77XmqYqTM3
Interested in how fluids induce aseismic slip and earthquakes? Check out our last paper with @BLecampion.
Based on a 3D model, we investigate aseismic slip growth and earthquake nucleation from a localized source of fluids.
https://t.co/5ASpgTtXSs
Heading to AGU and wondering what more insight can we gain into models of the seismic cycle using rate- and state-dependent friction?
Check out Federico Ciardo’s presentation Tuesday, TA22-02, and be surprised.
https://t.co/rEM3QMAl5A
New pre-print!
Happy to share our work with @BLecampion on the mechanics of fluid-driven slow slip and earthquake nucleation in 3D.
Free to access here:
https://t.co/L5W49tvcmE
EPFL associate professor Brice Lecampion and his team have developed a model that sheds light on the seismic risks arising from subsurface fluid injections carried out as part of geothermal energy extraction. https://t.co/AMpnsuU3kR @BLecampion#geothermal@EnergyEpfl@EPFL_en
Happy to share our new article with @BLecampion on the mechanics of post-injection aseismic slip, and its implications for induced seismicity after shut-in, a critical issue in the geo-energy industry.
Free to read link: https://t.co/3x4T6gxAJs