Invited Presentations

  1. AGU 2024 Session S018. Geologic carbon storage.
    Efficient physics-based modelling of induced seismicity in the Decatur CCS project and upscaling to the Illinois basin.
    USA-12.2024
  2. AGU 2024 Session S034. Thermo-Hydro-Mechanical-Chemical Processes in Seismogenesis.
    One-way coupled hydro-mechanical-seismic models for understanding and forecasting man-made seismicity.
    USA-12.2024
  3. ARMA Future Leader Webinar series
    Multi-scale hydro-mechanical couplings for decarbonizing the energy matrix.
    Keynote speaker
    USA-05.2024
  4. GeoRest workshop on induced seismicity
    On the need to account for fault strength excess and time-dependent nucleation to model and forecast induced seismicity.
    Keynote speaker
    ES-03.2024
  5. Concordia University Montreal
    Multi-scale hydro-mechanical couplings for decarbonizing the energy matrix.
    CA-03.2024
  6. Virginia Tech
    Multi-scale hydro-mechanical couplings for decarbonizing the energy matrix.
    USA-03.2024
  7. Rice university
    Multi-scale hydro-mechanical couplings for decarbonizing the energy matrix.
    USA-02.2024
  8. Center for Geomechanics and Mitigation of Geohazards (GMG) at Caltech IAB Fall meeting
    Enhanced extraction of surface deformation and implications for rock rheology.
    USA-10.2023
  9. NVIDIA Carbon Capture and Storage
    An integrated workflow for subsurface operations: Multiphase fluid flow, Geomechanics, and Seismicity.
    USA-09.2023
  10. Center for Geomechanics and Mitigation of Geohazards (GMG) at Caltech - Deep Dive on CO2 capture.
    An integrated workflow for subsurface operations: Fluid flow, Geomechanics, and Seismicity.
    USA-05.2023
  11. Caltech Knowles Symposium
    Contact mechanics enlighten hydro-mechanical couplings in laboratory faults.
    USA-05.2023
  12. University of California Santa Cruz
    From micro- to macro-scopic hydro-mechanical couplings in the lithosphere.
    USA-03.2023
  13. Center for Earthquake Research and Information (CERI) of the University of Memphis
    Fluid pressure drastically influences earthquake nucleation and propagation beyond the effective stress concept.
    Virtual-03.2022
  14. Center for Geomechanics and Mitigation of Geohazards (GMG) at Caltech IAB winter meeting
    Coupling between deformation and fluid transport in fractures.
    Keynote speaker
    Virtual-02.2022
  15. Caltech Seismological Laboratory
    Fluid pressure drastically influences earthquake nucleation and propagation beyond the effective stress concept.
    USA-10.2021
  16. Poroelasticity Minisymposium ROCKETH, 2017
    Effect of pore fluid on dynamic earthquake rupture: Implications for Enhanced Geothermal Systems.
    CH-03.2017
  17. Invited Seminar at EPFL PhD Meeting
    Understanding earthquakes in the laboratory
    Oral Presentation
    CH-10.2018

Conference Presentations

  1. American Geophysical Union annual meeting 2023
    Earthquake nucleation characteristics revealed by the effect of long-and-short term stress variations on induced seismicity.
    Oral Presentation
    USA-12.2023

Outreach Activities

  1. Ecuadorian geothermal association (AGE):
    Geotermia: Fundamentos, interés para el Ecuador y nuevas líneas.
    Outreach video on geothermal information for Ecuador - Link
    EC-10.2022
  2. Radio Interview RTS, Émission CQFD
    La présence d'eau dans les roches atténue la force des séismes induits
    Outreach radio interview - Link
    CH-08.2018
  3. ENAC Research day, 2016
    Hydro mechanical couplings in enhanced geothermal reservoirs
    Oral Presentation
    CH-05.2016
  4. Doctoral school of mechanics, spring 2017
    Effect of pore fluid on dynamic earthquake rupture: Implications for Enhanced Geothermal Systems
    Invited oral presentation.
    CH-03.2017