Public profile
Research areas
Applied geophysics, seismic imaging, timelapse seismology, distributed acoustic sensing, rock physics, geological carbon storage, geothermal energy, hydrogeophysics
Earth, Environmental and Planetary Sciences
Professor, Earth, Environmental and Planetary Sciences
Average rating
3.5
11 temporary mock ratings
Difficulty
3.5
course-linked average
Courses
5
in seeded sections
Applied geophysics, seismic imaging, timelapse seismology, distributed acoustic sensing, rock physics, geological carbon storage, geothermal energy, hydrogeophysics
EEPS 481
Advanced activities adapted to the needs of the individual undergraduate student research. Repeatable for Credit.
EEPS 491
Activities in Earth, Environmental or Planetary sciences adapted to the needs of individual undergraduate study. Repeatable for Credit.
EEPS 501
Advanced work in Earth science adapted to the needs of individual graduate students. Repeatable for Credit.
EEPS 582
A broad introduction to the intersection between the energy transition and geoscience. The focus will be on subsurface technologies relevant to carbon mitigation, low carbon power, energy storage, and critical materials, while also introducing the climate and resource drivers for this transition. The course will introduce fundamental concepts, applications to subsurface systems, and their impact on the future of energy production and utilization. Recommended Prerequisite(s): MATH 101/102 or equivalent; PHYS 101/102 or equivalent; competence in a structured programming language.
EEPS 800
Thesis research. Recommended Prerequisite(s): Students must pass the preliminary exam before taking this course. Repeatable for Credit.