The three instruments are a microwave radiometer and two location-finding systems, along with associated ground support equipment. They left NASA's Jet Propulsion Laboratory, Pasadena, Calif., on May 19 en route to Thales Alenia Space's Integration Center in Cannes, France, where they arrive on May 22. There, they will be integrated with the Jason-3 spacecraft and tested before being shipped back to California's Vandenberg Air Force Base for launch in March 2015. Thales Alenia Space is the Jason-3 spacecraft contractor for the French space agency, Centre National d'Etudes Spatiales (CNES).
Jason-3 is designed to measure precisely the height of the ocean surface, allowing scientists to monitor ocean circulation and sea level. It will extend the long-term data set established by three previous satellite altimetry missions: Topex/Poseidon (1992-2006), Jason-1 (launched in 2001 and still in operation) and the Ocean Surface Topography Mission/Jason-2 (launched in 2008 and also still in operation). Jason-3 is being developed and operated as part of an international effort led by the National Oceanic and Atmospheric Administration (NOAA) and the European Organisation for the Exploitation of Meteorological Satellites (EUMETSAT) in collaboration with NASA and CNES. JPL built the three NASA instruments on behalf of NOAA.
Processed data from the satellite will be used in a broad range of applications, including improving our knowledge of global and regional sea level changes, operational ocean and weather forecasting, ocean wave modeling, hurricane intensification prediction, seasonal forecasting, El Nino and La Nina forecasting, and climate research. The data will help address key questions about global climate change.
Details of the three JPL-developed instruments include:
• The Advanced Microwave Radiometer measures radiation from Earth's surface at three frequencies (18, 23 and 34 gigahertz) to determine the amount of water vapor present in the atmosphere. This water vapor affects the accuracy of altimeter measurements by delaying the time it takes for the altimeter's signals to make their round trip to the ocean surface and back.
• The Global Positioning System Payload is a tracking system that enhances the location-tracking measurements of CNES' Doppler Orbitography and Radio-positioning Integrated by Satellite instrument aboard Jason-3. It uses triangulated data from the U.S. Global Positioning System constellation of navigation satellites to determine the satellite's precise position in orbit. Its data are used to continuously track the satellite's trajectory.
• The Laser Retroreflector Array is an array of mirrors that allow the satellite to be tracked with centimeter accuracy by 40 satellite laser ranging stations on the ground. By analyzing the round-trip time of the laser beam, the satellite's precise position in orbit can be determined.
Covering more than two-thirds of Earth, the world's ocean plays a critical role in climate change. "Global warming is raising sea levels and reshaping our ocean," said Josh Willis, Jason-3 project scientist at JPL. "Jason-3 will measure our changing ocean and help us keep our finger on the pulse of Earth's climate."
For more information on Jason-3, visit: http://sealevel.jpl.nasa.gov/missions/jason3/ .