Scientists make breakthrough discovery about extreme exoplanet's atmosphere
The atmosphere of planets always accounts for an interesting study for astronomers to find out how life-supporting they are. The atmosphere of Earth is not a uniform envelope but consists of distinct layers that each has characteristic properties.
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The atmosphere of planets always accounts for an interesting study for astronomers to find out how life-supporting they are. The atmosphere of Earth is not a uniform envelope but consists of distinct layers that each has characteristic properties. In a new study that appeared in the journal 'Nature Astronomy', an international team of researchers led by the University of Lund showed for the first time that the atmosphere of one of the most extreme known planets may have similarly distinct layers as well - albeit with very different characteristics.
WASP-189b is a planet outside our own solar system, located 322 light-years from Earth. Extensive observations with the CHEOPS space telescope in 2020 revealed among other things that the planet is 20 times closer to its host star than Earth is to the Sun and has a daytime temperature of 3200 degrees Celsius. More recent investigations with the HARPS spectrograph at the La Silla Observatory in Chile now for the first time allowed the researchers to take a closer look at the atmosphere of this Jupiter-like planet. "We measured the light coming from the planet's host star and passing through the planet's atmosphere. The gases in its atmosphere absorb some of the starlight, similar to Ozone absorbing some of the sunlight in Earth's atmosphere, and thereby leave their characteristic 'fingerprint'. With the help of HARPS, we were able to identify the corresponding substances," the lead author of the study and doctoral student at Lund University, Bibiana Prinoth, explained.
According to the researchers, the gases that left their fingerprints in the atmosphere of WASP-189b included iron, chromium, vanadium, magnesium and manganese. One particularly interesting substance the team found was a gas containing titanium: titanium oxide. While titanium oxide is very scarce on Earth, it could play an important role in the atmosphere of WASP-189b - similar to that of ozone in Earth's atmosphere.
"Titanium oxide absorbs short wave radiation, such as ultraviolet radiation. Its detection could therefore indicate a layer in the atmosphere of WASP-189b that interacts with the stellar irradiation similarly to how the Ozone layer does on Earth," study co-author Kevin Heng, a professor of astrophysics at the University of Bern and a member of the NCCR PlanetS, explained. Indeed, the researchers found hints of such a layer and other layers on the ultra-hot Jupiter-like planet.
"In our analysis, we saw that the 'fingerprints' of the different gases were slightly altered compared to our expectation. We believe that strong winds and other processes could generate these alterations. And because the fingerprints of different gases were altered in different ways, we think that this indicates that they exist in different layers - similarly to how the fingerprints of water vapour and ozone on Earth would appear differently altered from a distance, because they mostly occur in different atmospheric layers," Prinoth explained. These results may change how astronomers investigate exoplanets. "In the past, astronomers often assumed that the atmospheres of exoplanets exist as a uniform layer and try to understand it as such. But our results demonstrate that even the atmospheres of intensely irradiated giant gas planets have complex three-dimensional structures," study co-author and associate senior lecturer at Lund University Jens Hoeijmakers pointed out.
"We are convinced that to be able to fully understand these and other types of planets - including ones more similar to Earth, we need to appreciate the three-dimensional nature of their atmospheres. This requires innovations in data analysis techniques, computer modelling and fundamental atmospheric theory," Kevin Heng concluded. (ANI)
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