View Full Version : First Super-Earth Atmosphere Detected

2016-Feb-17, 07:00 PM
55 Cancri-e was once touted as one of the most exotic exo-planets ever discovered. Mass and radius modelling led some astronomers to speculate that its interior could be rich in carbon. And that much carbon crushed together under extreme pressure = diamonds. That's how it got its nickname "Diamond Planet."
But*55 Cancri-e—now named "Janssen" (Thank you International Astronomical Union!)—is even more exotic with the recent discovery of an atmosphere. A February 7th research paper (http://arxiv.org/pdf/1511.08901v2.pdf) in the Astrophysical Journal, by a team of European astronomers, reports that Janssen has an atmosphere rich in hydrogen. This makes Janssen the first exo-planet, that we know of,*to have an atmosphere.
The team used the Wide Field Camera 3 (WDF3) on the Hubble Space Telescope, and a new scanning technique, to gain an understanding of Janssen's atmosphere. Along with hydrogen, the team also found helium, and potentially, hydrogen cyanide.
Given Janssen's surface temperature of 2000 K (1727 C), and its proximity to its host star, the existence of an atmosphere is surprising. The team suspects that the hydrogen-rich atmosphere is left over from the planet's formation 8 billion years ago, and is a remnant of the nebula that the planet and star formed from.
“Our observations of 55 Cancri e’s atmosphere suggest that the planet has managed to cling on to a significant amount of hydrogen and helium from the nebula from which it formed,” said Angelos Tsiaras, a PhD student at UCL, who helped develop the new scanning technique. “This is a very exciting result because it’s the first time that we have been able to find the spectral fingerprints that show the gases present in the atmosphere of a super-Earth (http://www.universetoday.com/108452/what-is-a-super-earth/).”
Super-Earths are the most common type of planet in our galaxy, though none exist in our solar system. They are called super-Earths because they*have more mass*than Earth,*but are smaller than the gas giants. A greater understanding of super-Earths should mean a greater understanding of the most common type of planet around.
“This result gives a first insight into the atmosphere of a super-Earth. We now have clues as to what the planet is currently like, how it might have formed and evolved, and this has important implications for 55 Cancri e (https://en.wikipedia.org/wiki/55_Cancri_e) and other super-Earths,” said Professor Giovanna Tinetti of UCL.
The existence of hydrogen cyanide in Janssen's atmosphere is also significant. Its presence indicates a carbon-rich atmosphere. This supports the idea that Janssen is a diamond planet, though that conclusion is still far from certain. “If the presence of hydrogen cyanide and other molecules is confirmed in a few years time by the next generation of infrared telescopes (https://en.wikipedia.org/wiki/Infrared_telescope), it would support the theory that this planet is indeed carbon rich and a very exotic place,” said Professor Jonathan Tennyson, UCL.
The team has used their new technique on 2 other super-Earths, but no atmosphere was found.
55-Cancri e is about 40 light years from Earth. Its host star is slightly smaller, cooler, and a little dimmer than our Sun, and its year is shorter than an Earth day.

The post First Super-Earth Atmosphere Detected (http://www.universetoday.com/127449/first-super-earth-atmosphere-detected/) appeared first on Universe Today (http://www.universetoday.com).

More... (http://www.universetoday.com/127449/first-super-earth-atmosphere-detected/)

Amber Robot
2016-Feb-18, 05:19 PM
This makes Janssen the first exo-planet, that we know of,*to have an atmosphere.

I do not think this is true. Wasn't Charbonneau detecting exoplanet atmospheres over a decade ago?