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     - subduction zones
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       \ subduction zone settings. I am currently using 3-D numerical simulations to\
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      \ predict earthquake ground motions associated with large earthquakes in the\
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       \ Cascadia subduction zone, as well as on crustal faults systems. I integrate\
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      \ and work closely with engineers and social scientists to improve earthquake\
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      \ resilience in the Pacific Northwest. I am also interested in the generation\
        "abstract": "Research Geophysicist with the Earthquake Hazards Program"
       \ of strong ground motions by distinct patches on the megathrust (i.e., as observed\
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       \ in the 2011 M9.0 Tohoku, Japan earthquake) and the amplification of ground\
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      \ motions by deep sedimentary basins (e.g., the Seattle basin).My other research\
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      \ seismological techniques (such as receiver functions and shear wave splitting)\
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      \ to interrogate deformational processes and the extent of hydration in subduction\
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      \ systems worldwide.Education2014                    Ph.D. Geology & Geophysics,\
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      \ Yale University2011                    M.Phil. Geology & Geophysics, Yale\
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      \ University2009                    B.S. Physics, New York UniversityAppointments2017-PresentResearch\
        "abstract": "My research focuses on earthquake hazards, specifically in subduction zone settings. I am currently using 3-D numerical simulations to predict earthquake ground motions associated with large earthquakes in the Cascadia subduction zone, as well as on crustal faults systems. I integrate my work with geologic and geophysical observations from previous earthquakes, and work closely with engineers and social scientists to improve earthquake resilience in the Pacific Northwest. I am also interested in the generation of strong ground motions by distinct patches on the megathrust (i.e., as observed in the 2011 M9.0 Tohoku, Japan earthquake) and the amplification of ground motions by deep sedimentary basins (e.g., the Seattle basin).My other research interests focus on using seismic observations and numerical modeling to characterize the structure and dynamics of Earth\u2019s interior. Previously, I have used seismological techniques (such as receiver functions and shear wave splitting) to interrogate deformational processes and the extent of hydration in subduction systems worldwide.Education2014                    Ph.D. Geology & Geophysics, Yale University2011                    M.Phil. Geology & Geophysics, Yale University2009                    B.S. Physics, New York UniversityAppointments2017-PresentResearch Geophysicist, U.S. Geological Survey, Seattle, WA2017-PresentAffiliate Assistant Professor, University of Washington2014-2018          Duty Seismologist, Pacific Northwest Seismic Network, University of Washington2014-2017          Postdoctoral Research Associate, Department of Earth & Space Sciences, University of Washington2009-2014          Graduate Student Researcher, Department of Geology & Geophysics, Yale University"
      \ Geophysicist, U.S. Geological Survey, Seattle, WA2017-PresentAffiliate Assistant\
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      \ Professor, University of Washington2014-2018          Duty Seismologist, Pacific\
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      \ Northwest Seismic Network, University of Washington2014-2017          Postdoctoral\
    "email": "ewirth@usgs.gov",
      \ Research Associate, Department of Earth & Space Sciences, University of Washington2009-2014\
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Latest revision as of 22:09, 22 September 2024

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