by Staff Writers
Berlin, Germany (SPX) Sep 29, 2020
Initial measurements made by the European CHaracterising ExOPlanet Satellite (CHEOPS) space telescope indicate that the giant planet, WASP-189b, located 326 light years from Earth, glows as hot as a small star as it orbits its central star at high speed on an unusual orbit that takes it close to the star's poles.
At 3200 degrees Celsius, it is one of the hottest bodies of the over 4000 known exoplanets. The European Space Agency (ESA) mission, launched last year, enables the high-precision characterisation of extrasolar planets. Scientists from the German Aerospace Center (Deutsches Zentrum fur Luft- und Raumfahrt; DLR) involved in CHEOPS contributed to the analyses, which have now been published in the journal Astronomy and Astrophysics.
"The planet WASP-189b was detected in 2018. Because of its unusual orbit close to its central star, we studied it with CHEOPS very early on," explains Szilard Csizmadia from the DLR Institute of Planetary Research. "The precise measurements made with CHEOPS have now revealed its extraordinary characteristics: it is an ultra-hot planet, almost 1.6 times the diameter of Jupiter, and its orbit around its star is strangely inclined."
The CHEOPS space telescope was placed in a sun-synchronous orbit 700 kilometres above Earth on 18 December 2019. Since then, CHEOPS has been observing stars in our cosmic neighbourhood that are already known to be orbited by planets. It takes a so-called 'second look' at these exoplanets. Thanks to its ultra-precise measurements, CHEOPS is able to characterise these planets in detail, and thus greatly enhance our understanding of the formation and evolution of planetary systems.
Planetary occultation reveals high temperature
These extremely precise measurements of such an occultation allows the temperature of the planet to be derived. It was determined that WASP-189b has a surface temperature of approximately 3200 degrees Celsius, hotter than almost any other exoplanet known to date. At such temperatures, all rocks and metals melt and become gaseous. By way of comparison, the Sun has a surface temperature of almost 6000 degrees Celsius, but some small M dwarf stars have temperatures well below 3000 degrees Celsius.
Orbiting at approximately 7.5 million kilometres from its star, WASP-189b is 20 times closer to its star than Earth, which orbits the Sun at a distance of about 150 million kilometres. One orbit takes only 2.7 days to complete. The star around which it orbits is larger and over 2000 degrees hotter than the Sun, and therefore appears to glow blue.
"Only a handful of planets are known to exist around stars this hot, and this system is by far the brightest," says Monika Lendl of the University of Geneva, Switzerland, lead author of the new study. "WASP-189b is also the brightest hot Jupiter that we can observe as it passes in front of or behind its star, making the whole system really intriguing."
Rapid star rotation leads to flattening
As a result, the equatorial radius is greater than the polar radius. This causes the star to be cooler at the equator and hotter at the poles, making the poles appear brighter. In addition to this unusual asymmetry, the planet's orbit is not in the equatorial plane of the star, as would be expected if the star and planet developed from a common disk of gas and dust that passes on its rotational direction to its planets, as is the case in the Solar System. The orbit of WASP-189b, however, passes over the poles of its star.
Such an inclined orbit leads to the unsolved question of how the 'hot Jupiter' was formed. It is thought that such an inclined orbit is possible when a planet forms further out from its star and is then driven inwards. This could occur either when several planets within a system crowd into one orbit or when an external influence - such as another star -- disrupts the system and forces the gas giant towards its star and into a very strongly inclined orbit. The strong inclination of the planetary orbit suggests that WASP-189b experienced such a strong interaction in the past.
CHEOPS promises major advances in exoplanet research
Heike Rauer, Director of the DLR Institute of Planetary Research in Berlin-Adlershof, is enthusiastic: "The accuracy achieved with CHEOPS is fantastic." As a CHEOPS project scientist, she is optimistic about the future of the mission: "The initial measurements already show that the instrument works better than expected. It is allowing us to learn more about these distant planets."
Thousands of exoplanets, the vast majority of which have no direct equivalent in the Solar System, have been discovered in the last quarter century, and many more will be identified with current and future ground-based surveys and space missions such as PLATO.
Over the next few years, CHEOPS will monitor hundreds of previously identified planets orbiting bright stars, building and expanding on existing knowledge, as was done for WASP-189b. The mission is the first in a series of three ESA science missions focusing on the detection and characterisation of exoplanets. But CHEOPS also has significant discovery potential of its own - from identifying worthwhile observation objects for future missions, to exploring exoplanetary atmospheres and searching for other planets in known planetary systems.
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