Feature

Text Size

Meet Gerald Heymsfield: Cloud Radar Expert and Research Meteorologist
06.01.05
 
Image of Dr. Heymsfield.Dr. Gerald Heymsfield is a research Meteorologist in the Goddard Mesoscale Atmospheric Processes Branch at NASA's Goddard Space Flight Center (GSFC) in Greenbelt, Md. One of the areas he focuses his research on is hurricane intensification.

He received his undergraduate degree in Physics and Mathematics at the State University of New York in 1971, and then received his M.S. degree at the University of Chicago in Geophysical Sciences in 1972. His major area was Radar Meteorology and he was involved with one of the first Doppler weather radars. He then received his Ph.D. from the University of Oklahoma in Meteorology in 1976. His dissertation dealt with one of first dual-Doppler analyses of the three-dimensional wind structure of a tornadic supercell storm. Heymsfield then worked as a Research Associate at the University of Chicago from 1976-1979, where he was involved in radar studies of winter storms.

From 1979 to the present, Heymsfield has been at NASA GSFC where he has conducted research on Radar and Satellite Meteorology. He initiated the 9.6 GHz ER-2 Aircraft Doppler Radar in the late 1980s.

He has remained Principal Investigator for this instrument that has been used in numerous ER-2 field campaigns studying convection and hurricanes. Heymsfield is also Principal Investigator on a second radar, the 94 GHz Cloud Radar System for the ER-2 that is used to study clouds such as cirrus (high clouds). His current activities are focused on process studies dealing with mesoscale convective systems and tropical storms using the two ER-2 radar systems.

A mesoscale convective system (MCS) is a large organized weather system comprised of a number of individual thunderstorms. The size of an MCS can be 100 times larger than an individual thunderstorm. The area of an MCS can range from areas between 10 and several hundred kilometers or 5 miles to a couple of hundred miles, and may cross a couple of state boundaries.

Previous tropical storm-related studies by Heymsfield have dealt observational studies of the role of convective bursts and vertical wind shear (a rapid change in wind speed or direction with height) on hurricane intensification. In addition, Heymsfield has been involved in the obtaining microphysical information from the two radars. Recent studies involved Hurricane Bonnie and Tropical Storm Chantal in 2001.

Heymsfield will be one of the mission scientists in the upcoming Tropical Cloud Systems and Processes field campaign in the summer of 2005 that will study how tropical storms begin. Once again, the Goddard ER-2 Aircraft radars will provide vertical structure of these storms from the ocean surface to the top of the storm.

Related Web sites:

Dr. Gerald Heymsfield's Web site and Research Papers

Tropical Cloud Systems and Processes mission

NASA's ER-2 Aircraft

NASA ER-2 Radars

 
 
Rob Gutro
Goddard Space Flight Center