I have been continuously involved in various research projects over the last couple of years. During my undergraduate career and the University of Nevada, Reno I worked closely with John Louie modeling earthquake ground motions in the Las Vegas Valley. Shortly after graduation I worked for Multi-Phase Technologies where I worked on various projects using electrical resistivity. My involvement here at the University of Wyoming has been with the Wyoming Center for Environmental Hydrology and Geophysics (WyCEHG) applying near-surface geophysical methods to environmental and geomorphological problems. Near-surface geophysics includes electrical resistivity, seismic refraction, ground penetrating radar and passive field magnetic data. Click the links in the sidebar to be directed to more detailed information about each of my areas of research.
The solution to Laplace's equation, solved by using my own steepest decent algorithm. The problems boundary conditions were given as u(x,0) = sin(pi*x); u(x,1) = exp(pi)*sin(pi*x); and u(0,y) = u(1,y) = 0.
An image from an F-K filter that I designed to filter out the direct arrival in marine seismic data prior to for processing the data for water column reflections.