Machine learning (ML) has been perceived as a promising tool for the design and discovery
of novel materials for a broad range of applications. In this prospective paper, we summarize …

Dynamic rupture models are physics‐based simulations that couple fracture mechanics to
wave propagation and are used to explain specific earthquake observations or to generate a …

Numerical models of rupture dynamics provide great insights into the physics of fault failure.
However, resolving stress interactions among multiple faults remains challenging …

SUMMARY The Eastern Mediterranean is the most seismically active region in Europe due
to the complex interactions of the Arabian, African, and Eurasian tectonic plates …

The spectral boundary integral (SBI) method has been widely employed in the study of
fractures and friction within elastic and elastodynamic media, given its natural applicability to …

While significant progress has been made in understanding earthquake source processes in
linear elastic domains, the effect of more realistic rheologies including plasticity is poorly …

Despite its critical role in the study of earthquake processes, numerical simulation of the
entire stages of fault rupture remains a formidable task. The main challenges in simulating a …

We present a novel hybrid finite element‐spectral boundary integral (SBI) scheme that
enables efficient simulation of earthquake cycles. This combined finite element‐SBI …

We present a 3D hybrid method which combines the finite element method (FEM) and the
spectral boundary integral method (SBIM) to model nonlinear problems in unbounded …

We perform numerical simulations of sequences of earthquake and aseismic slip on planar
rate and state faults separating dissimilar material within the 2-D plane strain approximation …