I’m a physical oceanographer working with Prof. Leif Thomas in the Department of Earth System Science (ESS) at Stanford University on submesoscale fronts. I’m also a coastal modeler with broad interests in multiscale physical and biogeochemical processes in the ocean and how climate change affect the coastal oceans. During my PhD, I have been using a variety of numerical tools, ranging from the NCAR large-eddy simulation (LES) model to the Coupled-Ocean-Atmosphere-Wave-Sediment Transport (COAWST) model, to explore the oceanic surface boundary layer (OSBL) turbulence and its role in marine particle dynamics under the supervision of Prof. Jun-Hong Liang in the Department of Oceanography & Coastal Sciences at Louisiana State University. Before joining Stanford, I was a postdoctoral research associate working with Prof. John Taylor in the Department of Applied Mathematics and Theoretical Physics (DAMTP) at University of Cambridge, and research scientist at Ocean Dynamics & Modeling group at Pacific Northwest National Laboratory (PNNL).
Ph.D. in Physical Oceanography, 2019
Louisiana State University
M.S. in Environmental Science, 2014
Ocean University of China
B.S. in Environmental Science, 2011
Ocean University of China
Submesoscale fronts and filaments can modify the vertical mixing.
Flocculation affects the floc size and spatial distribution in the water column.
The variability in turbulent flows to wind direction is different at different latitudes and in opposite hemispheres.
The water age distribution varies in response to changes in runoff and the tides.