**Job Description**
This position focuses on the development and application of phase field methods for dynamic earthquake rupture simulations within the contexts of enhanced geothermal systems, CO2 sequestration, and earthquake physics. The project bridges applied geophysics and computational mechanics, aiming to advance the understanding of shear fracture propagation in complex geological systems using next-generation computational tools. The research will specifically concentrate on fault rupture dynamics, energy dissipation, and scale-dependent fracture processes, with applications to both natural earthquakes and induced seismicity.
**Skills & Abilities**
� Strong expertise in mechanics and physics-based modelling
� Passion for using computational tools to explore fracture and rupture in the Earth’s crust
� Expertise in earthquake source physics, fracture mechanics, or dynamic rupture modelling
� Strong background in continuum mechanics and variational methods
� Demonstrated ability to publish in peer-reviewed journals
� Collaborative mindset and interest in interdisciplinary research
**Qualifications**
Required Degree(s) in:
� Mechanics
� Geophysics
� Applied Mathematics
� A related field
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