Across the life of CloudSat, several potentially mission-ending issues occurred related to the spacecraft’s battery and to the reaction wheels used to control the satellite’s orientation. The CloudSat team developed unique solutions, including “hibernating” the spacecraft during nondaylight portions of each orbit to conserve power, and orienting it with fewer reaction wheels. Their solutions allowed operations to continue until the Cloud Profiling Radar was permanently turned off in December 2023.
“It’s part of who we are as a NASA family that we have dedicated and talented teams that can do things that have never before been done,” said Deborah Vane, CloudSat’s project manager at JPL. “We recovered from these anomalies with techniques that no one has ever used before.”
Sister Satellites
CloudSat was launched on April 28, 2006, in tandem with a lidar-carrying satellite called (short for the Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation). The two spacecraft joined an international constellation of weather- and climate-tracking satellites in Earth orbit.
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Radar and lidar are considered “active” sensors because they direct beams of energy at Earth — radio waves in the case of CloudSat and laser light in the case of CALIPSO — and measure how the beams reflect off the clouds and fine particles (aerosols) in the atmosphere. Other orbiting science instruments use “passive” sensors that measure reflected sunlight or radiation emitted from Earth or clouds.
Orbiting less than a minute apart, CloudSat and CALIPSO circled the globe in Sun-synchronous orbits from the North to the South Pole, crossing the equator in the early afternoon and after midnight every day. Their overlapping radar-lidar footprint cut through the vertical structure of the atmosphere to study thin and thick clouds, as well as the layers of airborne particles such as dust, sea salt, ash, and soot that can influence cloud formation.
The influence of aerosols on clouds remains a key question for global warming projections. To explore this and other questions, the recently launched PACE satellite and future missions in NASA’s will build upon CloudSat’s and CALIPSO’s legacies for a new generation.
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“Earth in 2030 will be different than Earth in 2000,” Stephens said. “The world has changed, and the climate has changed. Continuing these measurements will give us new insights into changing weather patterns.”
More About the Missions
The CloudSat Project is managed for NASA by JPL. JPL developed the Cloud Profiling Radar instrument with important hardware contributions from the Canadian Space Agency. Colorado State University provides science data processing and distribution. BAE Systems of Broomfield, Colorado, designed and built the spacecraft. The U.S. Space Force and U.S. Department of Energy contributed resources. U.S. and international universities and research centers support the mission science team. Caltech in Pasadena, California, manages JPL for NASA.
CALIPSO, which was a joint mission between NASA and the French space agency, CNES (Centre National d’Études Spatiales), in August 2023.
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