MODIS Airborne Simulator (01). The NASA ER-2 high altitude aircraft. Image credit: NASA.
“The MODIS Airborne Simulator (MAS), which flies onboard the NASA ER-2 high altitude aircraft, currently supports product development and validation efforts…
The objectives were to locate regions of radiative covergence and divergence as a function of altitude and to indicate the height at which solar energy is absorbed by the atmosphere. This experiment…
The objectives were to locate regions of radiative covergence and divergence as a function of altitude and to indicate the height at which solar energy is absorbed by the atmosphere. This experiment used a small net flux…
The objectives were to locate regions of radiative covergence and divergence as a function of altitude and to indicate the height at which solar energy is absorbed by the atmosphere. This…
Verner Suomi and image from Pioneer Venus (03). H.E. Revercomb, L.A. Sromovsky, and V.E. Suomi study net flux radiometer observations from Pioneer Venus. Credit: University of Wisconsin-Madison Communications.
Pioneer Venus Net Flux Radiometer (08). Pioneer Venus small probe, close-up. Credit: NASA.
The objectives were to locate regions of radiative covergence and divergence as a function of altitude and to indicate the height at which solar energy is…
High-resolution Interferometer Sounder - HIS (55). HIS instrument. Credit: SSEC.
UW-Madison Space Science and Engineering Center, working with industry, NOAA and NASA, led the design of the High-resolution Interferometer Sounder (HIS), the first…
High-resolution Interferometer Sounder - HIS (53). HIS instrument. Credit: SSEC.
UW-Madison Space Science and Engineering Center, working with industry, NOAA and NASA, led the design of the High-resolution Interferometer Sounder (HIS), the first…
High-resolution Interferometer Sounder - HIS (52). HIS instrument. Credit: SSEC.
UW-Madison Space Science and Engineering Center, working with industry, NOAA and NASA, led the design of the High-resolution Interferometer Sounder (HIS), the first…