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NASA Air Pollution Sensor Integrated and Tested with Commercial Satellite Host

Air pollution is an existential threat to millions of Americans with asthma and other health issues. Responding to that threat, NASA and the Smithsonian Astrophysical Observatory are innovating to improve observations of air quality in North America.

The TEMPO air pollution sensor is hosted on Intelsat 40e, seen here at the Maxar Technologies facility in Palo Alto, California, where it was built. The instrument and the entire spacecraft recently passed pre-launch testing at the facility.
The TEMPO air pollution sensor is hosted on Intelsat 40e, seen here at the Maxar Technologies facility in Palo Alto, California, where it was built. The instrument and the entire spacecraft recently passed pre-launch testing at the facility.
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Air pollution is an existential threat to millions of Americans with asthma and other health issues. Responding to that threat, NASA and the Smithsonian Astrophysical Observatory are innovating to improve observations of air quality in North America.

Tropospheric Emissions: Monitoring of Pollution (TEMPO) is an ultraviolet and visible spectrometer that will be hosted on Intelsat 40e, a commercial satellite built by Maxar Technologies. TEMPO’s sensors will measure sunlight reflected and scattered by Earth’s surface and atmosphere, allowing it to observe the spectral signatures of air pollutants, including ozone and nitrogen dioxide.

On Feb. 27, 2023, the instrument and the entire spacecraft successfully passed pre-launch testing at Maxar’s facility in Palo Alto, California. TEMPO underwent thermal vacuum, dynamics, and end-to-end capability testing to ensure it will withstand launch conditions and the harsh environment of space. Tests also ensured that commanding, telemetry, and mission data are flowing accurately.

Scheduled to launch in April 2023 from Cape Canaveral aboard a SpaceX Falcon 9 rocket, TEMPO will be the first instrument to observe air pollution hourly during daytime over North America. It will make measurements across an area that extends from Puerto Rico to northern Canada and from the Atlantic Ocean to the Pacific, encompassing the entire continental United States.

TEMPO data will play an important role in scientific studies of phenomena such as rush-hour pollution and the movement of emissions from forest fires and volcanoes. Scientists could eventually apply TEMPO observations to air quality alerts for people in pollution hot spots and those living with health issues.

TEMPO will also form part of a virtual constellation of air pollution monitors that will give scientists a big-picture view of air quality around the Northern Hemisphere.

Ball Aerospace in Broomfield, Colorado, built the TEMPO instrument. Kelly Chance, a scientist at the Smithsonian Astrophysical Observatory in Cambridge, Massachusetts — part of the Center for Astrophysics | Harvard & Smithsonian — is the principal investigator.