Europe’s CHEOPS spacecraft will continue investigating planets outside our solar system until at least 2026.
The European Space Agency (ESA) announced on March 9 that CHEOPS will continue its exoplanet-studying mission — which includes selecting “golden target” worlds for deeper investigation by the James Webb Space Telescope (JWST) — for at least another three years, with the potential to extend this further until 2029.
Launched in December 2019 from ESA’s spaceport in French Guiana, CHEOPS (short for “Characterising Exoplanet Satellite”) is designed to study planets with sizes between that of Earth and of Neptune as they cross, or transit, the face of bright stars. But it has had impressive results with objects well outside this size range.
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The mission has taken exoplanet science beyond simple detection, to a deeper investigation of the atmospheres of these worlds as well as accurately measuring their size and shape. Exoplanets with interesting atmospheric compositions can then be passed to more powerful telescopes like JWST, meaning CHEOPS plays a key role in our hunt for planets that could potentially support life.
“In this respect, the mission has been extremely successful,” CHEOPS consortium head Willy Benz, a professor emeritus of astrophysics at the University of Bern in Switzerland, said in a statement (opens in new tab). “The precision of CHEOPS has exceeded all expectations and has allowed us to determine properties of several of the most interesting exoplanets.”
An example of CHEOPS’ contribution to science was the discovery that the gas giant WASP-103 b, first spotted in 2014, has a distended, flattened shape similar to that of a rugby ball. The ESA spacecraft made this determination in 2021 by examining the brightness drop the planet causes as it transits the face of its star.
The compressed shape of WASP-103 b is believed to be the result of tidal interactions with its parent star, and the revelation marked the first time the shape of an exoplanet had been so well defined.
CHEOPS has also had an impact closer to home. Just this year, observations from the spacecraft were used to discover that Quaoar, a dwarf planet in our solar system, is surrounded by a ring of dust. The ring is exceptional because it is farther out from its parent body than any ring previously discovered, challenging theories of how such structures form.
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