ETH Zürich: 2018 - Current
As a Postdoctoral Fellow in the Nonlinear Dynamics group of George Haller, I have focused on utilizing recent developments in Applied Mathematics to advance the use of objective methods for analyzing environmental and experimental datasets. This has led to improvements in our understanding of turbulent transport of aerosols in the atmosphere, representations of sub-grid scale transport barriers in the ocean, and fundamental improvements in momentum transport barrier theory.
Get in TouchUniversity of Saskatchewan: 2013 - 2017
During my PhD studies at the Centre for Hydrology, I developed a novel method of in-situ blowing snow particle velocimetry measurements for night time field campaigns during blizzards in the Canadian Rockies. The data from these experiments advanced connections between coherent structure theory in atmospheric boundary layers to high-frequency snow surface dynamics. Further developments also connected these same structures to the regeneration of warm-dry near surface air during snowstorms. Additional work developed a quantitive spectrum for streamflow generating processes in basins across North America by analyzing delay-embedded streamflow time series in higher-dimensional spaces.
Get in Touch