In my research group, projects related to crustal deformation and the physics of earthquakes include:

• Modeling damage rheology in the Earth's crust
• Fault interaction in strike-slip fault systems (focussing on the San Andreas Fault (California, USA) and North Anatolian Fault (Turkey)
  
• Models of strain partitioning across the LA Basin
• Finite Element Models of deformation in a faulted, viscoelastic medium.
• Models of a sinking mafic body in a reactivated lower crust as a means for concentrating stress in the New Madrid Seismic Zone
• General Earthquake Models (GEM): A multidisciplinary effort to integrate information technology advances into computer simulations of earthquakes
• GPS measurements of deformation on the White Wolf Fault (see also this map) in southern California.
• Pictures from our 1997 GPS survey
• Report on this project to the Southern California Earthquake Center.
• Studying a seismic linement in the Southern Sierra Nevada        In my research group, projects related to crustal deformation and the physics of earthquakes include:
• Modeling damage rheology in the Earth's crust
• Fault interaction in strike-slip fault systems (focussing on the San Andreas Fault (California, USA) and North Anatolian Fault (Turkey)
  
• Models of strain partitioning across the LA Basin
• Finite Element Models of deformation in a faulted, viscoelastic medium.
• Models of a sinking mafic body in a reactivated lower crust as a means for concentrating stress in the New Madrid Seismic Zone
• General Earthquake Models (GEM): A multidisciplinary effort to integrate information technology advances into computer simulations of earthquakes
• GPS measurements of deformation on the White Wolf Fault (see also this map) in southern California.
• Pictures from our 1997 GPS survey
• Report on this project to the Southern California Earthquake Center.
• Studying a seismic linement in the Southern Sierra Nevada