Contact Information
1301 W. Green St.
Urbana, IL 61801
Biography
My research falls within the disciplines of physical meteorology, radar meteorology and mesoscale meteorology. I maintain very active programs in all these areas. Currently I have three research grants from the National Science Foundation and much of my work involves collaborative efforts with other faculty members and scientists from other institutions. I love field research -- there is nothing more exciting in atmospheric science than living through (and flying through!) the weather you ultimately study, especially when you are using the most sophisticated state-of-the-art instruments. Field campaigns lead to new discoveries, the most exciting aspect of science. I have been an investigator in twenty major field research programs and have worked extensively with conventional, dual-Doppler, and airborne radars, dual-channel microwave radiometers, optical array and scattering probes, as well as other aircraft, ground-based and satellite-based instruments. My group also uses cloud and mesoscale models to simulate a range of microphysical and mesoscale phenomena.
I require my graduate students to produce research of publication quality and I encourage them all to participate, and preferably take the lead, in publication of their work. Most of my graduated students have published their research. I also strongly encourage all my students to present the results of their research at national and international scientific conferences. I believe it is critical for their self-development to have these opportunities for national exposure. In addition, exposure enhances their employment opportunities. I make every attempt to include my students in national field research programs. I have given many students, including department students not directly under my supervision, the opportunity to participate in national field programs that involve scientists from many universities, national centers and laboratories. My grants will have supported student participation in thirteen field projects by the end of 2006. I also involve many of my students in collaborative research with colleagues at other institutions.
Research Description
My research falls within the disciplines of physical meteorology, radar meteorology and mesoscale meteorology. I maintain very active programs in all these areas. Currently I have three research grants from the National Science Foundation and much of my work involves collaborative efforts with other faculty members and scientists from other institutions. I love field research -- there is nothing more exciting in atmospheric science than living through (and flying through!) the weather you ultimately study, especially when you are using the most sophisticated state-of-the-art instruments. Field campaigns lead to new discoveries, the most exciting aspect of science. I have been an investigator in twenty major field research programs and have worked extensively with conventional, dual-Doppler, and airborne radars, dual-channel microwave radiometers, optical array and scattering probes, as well as other aircraft, ground-based and satellite-based instruments. My group also uses cloud and mesoscale models to simulate a range of microphysical and mesoscale phenomena.
I require my graduate students to produce research of publication quality and I encourage them all to participate, and preferably take the lead, in publication of their work. Most of my graduated students have published their research. I also strongly encourage all my students to present the results of their research at national and international scientific conferences. I believe it is critical for their self-development to have these opportunities for national exposure. In addition, exposure enhances their employment opportunities. I make every attempt to include my students in national field research programs. I have given many students, including department students not directly under my supervision, the opportunity to participate in national field programs that involve scientists from many universities, national centers and laboratories. My grants will have supported student participation in thirteen field projects by the end of 2006. I also involve many of my students in collaborative research with colleagues at other institutions.
Education
Ph.D. Colorado State University
M.S. Colorado State University
Additional Campus Affiliations
Professor, Atmospheric Sciences
External Links
Recent Publications
Geerts, B., Grasmick, C., Rauber, R. M., Zaremba, T. J., Xue, L., & Friedrich, K. (2023). Vertical Motions Forced by Small-Scale Terrain and Cloud Microphysical Response in Extratropical Precipitation Systems. Journal of the Atmospheric Sciences, 80(3), 649-669. https://doi.org/10.1175/JAS-D-22-0161.1
Rea, D., Rauber, R. M., Hu, H., Tessendorf, S. A., Nesbitt, S. W., Jewett, B. F., & Zaremba, T. J. (2023). The Contribution of Subtropical Moisture Within an Atmospheric River on Moisture Flux, Cloud Structure, and Precipitation Over the Salmon River Mountains of Idaho Using Moisture Tracers. Journal of Geophysical Research: Atmospheres, 128(6), [e2022JD037727]. https://doi.org/10.1029/2022JD037727
Varcie, M. M., Zaremba, T. J., Rauber, R. M., McFarquhar, G. M., Finlon, J. A., McMurdie, L. A., Ryzhkov, A., Schnaiter, M., Järvinen, E., Waitz, F., Delene, D. J., Poellot, M. R., Walker McLinden, M. L., & Janiszeski, A. (2023). Precipitation Growth Processes in the Comma-Head Region of the 7 February 2020 Northeast Snowstorm: Results from IMPACTS. Journal of the Atmospheric Sciences, 80(1), 3-29. https://doi.org/10.1175/JAS-D-22-0118.1
Fu, D., Di Girolamo, L., Rauber, R. M., McFarquhar, G. M., Nesbitt, S. W., Loveridge, J., Hong, Y., Van Diedenhoven, B., Cairns, B., Alexandrov, M. D., Lawson, P., Woods, S., Tanelli, S., Schmidt, S., Hostetler, C., & Scarino, A. J. (2022). An evaluation of the liquid cloud droplet effective radius derived from MODIS, airborne remote sensing, and in situ measurements from CAMP2Ex. Atmospheric Chemistry and Physics, 22(12), 8259-8285. https://doi.org/10.5194/acp-22-8259-2022
Geerts, B., & Rauber, R. M. (2022). Glaciogenic Seeding of Cold-Season Orographic Clouds to Enhance Precipitation. Bulletin of the American Meteorological Society, 103(10), E2302-E2314. https://doi.org/10.1175/BAMS-D-21-0279.1