William R. Cotton
Affiliations: | Colorado State University, Fort Collins, CO |
Area:
Atmospheric Science Physics, GeophysicsWebsite:
http://www.atmos.colostate.edu/faculty/cotton.phpGoogle:
"William Reuben Cotton"Mean distance: 16.43 | S | N | B | C | P |
Cross-listing: Meteorology Tree
Parents
Sign in to add mentor| Charles L. Hosler | grad student | 1970 | Penn State | |
| (A numerical simulation of precipitation development in supercooled cumuli.) | ||||
| Ronald L. Lavoie | grad student | 1970 | Penn State | |
Children
Sign in to add trainee| Johannes Verlinde | grad student | 1992 | Colorado State |
| Alexandre A. Costa | grad student | 2000 | Colorado State |
| Susan C. Van den Heever | grad student | 2001 | Colorado State |
| William Y. Cheng | grad student | 2002 | Colorado State |
| Brian J. Gaudet | grad student | 2002 | Colorado State |
| Jean-Christophe Golaz | grad student | 2002 | Colorado State |
| Israel L. Jirak | grad student | 2005 | Colorado State |
| Elizabeth M. Page | grad student | 2007 | Colorado State |
| Daniel S. Ward | grad student | 2010 | Colorado State |
| David G. Lerach | grad student | 2012 | Colorado State |
| Adrian M. Loftus | grad student | 2012 | Colorado State |
BETA: Related publications
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Publications
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| Jha V, Cotton WR, Carrió GG, et al. (2020) Seasonal estimates of the impacts of aerosol and dust pollution on orographic precipitation in the Colorado River Basin Physical Geography. 1-25 |
| Jha V, Cotton WR, Carrió GG, et al. (2018) Sensitivity Studies on the Impact of Dust and Aerosol Pollution Acting as Cloud Nucleating Aerosol on Orographic Precipitation in the Colorado River Basin Advances in Meteorology. 2018: 1-15 |
| Lerach DG, Cotton WR. (2018) Simulating southwestern U.S. desert dust influences on supercell thunderstorms Atmospheric Research. 204: 78-93 |
| Clavner M, Cotton WR, Heever SCvd, et al. (2018) The response of a simulated mesoscale convective system to increased aerosol pollution: Part I: Precipitation intensity, distribution, and efficiency Atmospheric Research. 199: 193-208 |
| Clavner M, Grasso LD, Cotton WR, et al. (2018) The response of a simulated mesoscale convective system to increased aerosol pollution: Part II: Derecho characteristics and intensity in response to increased pollution Atmospheric Research. 199: 209-223 |
| Herbener SR, van den Heever SC, Carrió GG, et al. (2014) Aerosol indirect effects on idealized tropical cyclone dynamics Journal of the Atmospheric Sciences. 71: 2040-2055 |
| Letcher T, Cotton WR. (2014) The effect of pollution aerosol on wintertime orographic precipitation in the colorado rockies using a simplified emissions scheme to predict CCN concentrations Journal of Applied Meteorology and Climatology. 53: 859-872 |
| Loftus AM, Cotton WR. (2014) A triple-moment hail bulk microphysics scheme. Part II: Verification and comparison with two-moment bulk microphysics Atmospheric Research. 150: 97-128 |
| Loftus AM, Cotton WR, Carrió GG. (2014) A triple-moment hail bulk microphysics scheme. Part I: Description and initial evaluation Atmospheric Research. 148: 35-57 |
| Loftus AM, Cotton WR. (2014) Examination of CCN impacts on hail in a simulated supercell storm with triple-moment hail bulk microphysics Atmospheric Research. 147: 183-204 |