For the first time ever! NASA reveals atmosphere of a midsize exo-planet

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Published: July 8, 2019 4:38:40 PM

The planet, Gliese 3470 b (GJ 3470 b), may be a cross between Earth and Neptune, with a large rocky core buried under a deep, crushing hydrogen-and-helium atmosphere.

NASA, NASA news, NASA latest news, Hubble telescope, Gliese 3470 b, Neptune, science news, science news 2019, science news today, science news headlines, science news latest Astronomers enlisted the combined multi-wavelength capabilities of Hubble and Spitzer space telescopes to do a first-of-a-kind study of GJ 3470 b’s atmosphere. (Representational IE image)

In a first, scientists have identified the detailed chemical “fingerprint” of a planet between the sizes of Earth and Neptune to uncover clues about its nature and origin, using NASA’s Sptitzer and Hubble space telescopes. No planets like this can be found in our own solar system, but they are common around other stars, NASA said in a statement.

The planet, Gliese 3470 b (GJ 3470 b), may be a cross between Earth and Neptune, with a large rocky core buried under a deep, crushing hydrogen-and-helium atmosphere. Weighing in at 12.6 Earth masses, the planet is more massive than Earth but less massive than Neptune, which is over 17 Earth masses. Many similar worlds have been discovered by NASA’s Kepler space observatory, whose mission ended in 2018. As many as 80 per cent of the planets in our galaxy may fall into this mass range.

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However, astronomers have never been able to understand the chemical nature of such a planet until now, researchers said. By inventorying the contents of GJ 3470 b’s atmosphere, astronomers are able to uncover clues about the planet’s nature and origin. “This is a big discovery from the planet-formation perspective. The planet orbits very close to the star and is far less massive than Jupiter — 318 times Earth’s mass — but has managed to accrete the primordial hydrogen/helium atmosphere that is largely ‘unpolluted’ by heavier elements,” said Bjorn Benneke of the University of Montreal in Canada. “We don’t have anything like this in the solar system, and that’s what makes it striking,” Benneke said.

Astronomers enlisted the combined multi-wavelength capabilities of Hubble and Spitzer space telescopes to do a first-of-a-kind study of GJ 3470 b’s atmosphere. This was accomplished by measuring the absorption of starlight as the planet passed in front of its star (transit) and the loss of reflected light from the planet as it passed behind the star (eclipse). The space telescopes observed 12 transits and 20 eclipses. The science of analysing chemical fingerprints based on light is called “spectroscopy.”

“For the first time we have a spectroscopic signature of such a world,” said Benneke. The atmosphere of GJ 3470 b turned out to be mostly clear, with only thin hazes, enabling the scientists to probe deep into the atmosphere. “We expected an atmosphere strongly enriched in heavier elements like oxygen and carbon which are forming abundant water vapour and methane gas, similar to what we see on Neptune,” said Benneke. “Instead, we found an atmosphere that is so poor in heavy elements that its composition resembles the hydrogen/helium-rich composition of the Sun,” Benneke said.

Other exoplanets, called “hot Jupiters,” are thought to form far from their stars and over time migrate much closer. But this planet seems to have formed just where it is today, said Benneke. The most plausible explanation, according to Benneke, is that GJ 3470 b was born precariously close to its red dwarf star, which is about half the mass of our Sun. He hypothesizes that essentially it started out as a dry rock and rapidly accreted hydrogen from a primordial disk of gas when its star was very young. The disk is called a “protoplanetary disk.”

“We’re seeing an object that was able to accrete hydrogen from the protoplanetary disk but didn’t run away to become a hot Jupiter. This is an intriguing regime,” said Benneke.

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