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Scanning Multispectral Microwave Radiometer (SMMR)

NSSDCA ID: 1978-098A-08

Mission Name: Nimbus 7
Principal Investigator:Dr. Per Gloersen

Description

The primary purpose of the Scanning Multichannel Microwave Radiometer (SMMR) was to obtain sea surface temperature and near-surface winds under all-weather conditions for developing and testing global ocean circulation models and other aspects of ocean dynamics. Winds, water vapor, liquid-water content, mean cloud droplet size, rainfall rate and sea ice parameters were also determined. Microwave brightness temperatures were observed with a 10-channel (five-frequency dual polarized) scanning radiometer operating at frequencies of 37, 21, 18, 10.69, and 6.6 GHz. Six Dicke-type radiometers were utilized. Those operating at the four longest wavelengths measured alternate polarizations during successive scans of the antenna; the others operated continuously for each polarization. The antenna was a parabolic reflector offset from the nadir by 42 deg. Motion of the antenna reflector provided observations from within a conical volume along the ground track of the spacecraft. The same instrument was flown on SEASAT 1. For a complete description, see Section 8 in "The Nimbus 7 Users' Guide" (TRF B30045), available from NSSDC.

Alternate Names

  • Nimbus7/SMMR
  • SMMR

Facts in Brief

Mass: 52.3 kg
Power (avg): 60 W
Bit rate (avg): 25 kbps

Funding Agency

  • NASA-Office of Space Science (United States)

Disciplines

  • Earth Science: Atmospheric Dynamics
  • Earth Science: Physical Oceanography

Additional Information

Questions and comments about this experiment can be directed to: Coordinated Request and User Support Office

 

Personnel

NameRoleOriginal AffiliationE-mail
Dr. Per GloersenTeam LeaderNASA Goddard Space Flight Centerper@icesat2.gsfc.nasa.gov
Mr. Frank T. BarathTeam MemberNASA Jet Propulsion Laboratoryftbarath@mail3.jpl.nasa.gov
Mr. John C. AlishouseTeam MemberNOAA National Environmental Satellite, Data and Information Service
Prof. David H. StaelinTeam MemberMassachusetts Institute of Technologystaelin@ll.mit.edu
Dr. Alfred T. C. ChangTeam MemberNASA Goddard Space Flight Centerachang@rainfall.gsfc.nasa.gov
Dr. Thomas T. Wilheit, Jr.Team MemberNASA Goddard Space Flight Centerwilheit@tamu.edu
Dr. D. B. RossTeam MemberNOAA Environmental Research Laboratories
Dr. William J. CampbellTeam MemberUS Geological Survey
Dr. Preben E. GudmandsenTeam MemberTechnical University of Denmark
Dr. Rene O. RamseierTeam MemberSurveillance Satellite Project
Dr. Donald J. CavalieriTeam MemberNASA Goddard Space Flight Centerdon@cavalieri.gsfc.nasa.gov
Dr. Ola M. JohannessenTeam MemberUS Naval Postgraduate School
Mr. E. J. LanghamTeam MemberCanadian Space Agency-Radarsat Project Office
Prof. Kristina B. KatsarosTeam MemberUniversity of Washingtonkatsaros@aoml.noaa.gov
Prof. Klaus F. KunziTeam MemberUniversitat Bernkunzi@iup.physik.uni-bremen.de
Mr. E. P.L. WindsorTeam MemberBritish Air Corporation, Ltd

Selected References

  • Gloersen, P., and F. T. Barath, A scanning multichannel microwave radiometer for Nimbus-G and SEASAT-A, IEEE J. Oceanic Eng., OE-2, No. 2, 172-178, doi:10.1109/JOE.1977.1145331, Apr. 1977.
  • Gloersen, P., et al., A summary of results from the first Nimbus 7 SMMR observations, J. Geophys. Res., 89, No. D4, 5335-5344, doi:10.1029/JD089iD04p05335, June 1984.
  • Gloerson, P., and L. Hardis, The scanning multichannel microwave radiometer (SMMR) experiment, in The Nimbus 7 Users' Guide, edited by C.R. Madrid, Management and Technical Services Company, Beltsville, MD, The Landsat/Nimbus Project, NASA/GSFC, p. 213, Aug. 1978.
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