During the past five decades, numerical modeling of subduction, one of the most
challenging and captivating geodynamic processes, remained in the core of geodynamic …

Dynamic modeling of sequences of earthquakes and aseismic slip (SEAS) provides a self‐
consistent, physics‐based framework to connect, interpret, and predict diverse geophysical …

Geodynamic modelling provides a powerful tool to investigate processes in the Earth's crust,
mantle, and core that are not directly observable. However, numerical models are inherently …

Slip accommodation in subduction zones ranges from aseismic slip phenomena to regular
megathrust earthquakes, and strongly depends on pore fluid pressure. We develop a new …

Taking the full complexity of subduction zones into account is important for realistic modeling
and hazard assessment of subduction zone seismicity and associated tsunamis. Studying …

Geodynamic modelling provides a powerful tool to investigate processes in the Earth's crust,
mantle, and core that are not directly observable. However, numerical models are inherently …

Several decades of field, geophysical, analogue, and numerical modeling investigations
have enabled documentation of the wide range of tectonic transport processes in …

We present a 2-D thermomechanical computational framework for simulating earthquake
sequences in a non-linear visco-elasto-plastic compressible medium. The method is …

High‐resolution computer simulations of earthquake sequences in three or even two
dimensions pose great demands on time and energy, making lower‐cost simplifications a …

The deep roots of subduction megathrusts exhibit aseismic slow slip events, commonly
accompanied by tectonic tremor. Observations from exhumed rocks suggest this region of …