But an abiding mystery has been. . . why are there so few rocky "Super Earths" -- ones with atmospheres, and about two and a half times the size of our Earth?
Well, a bunch of smart NASA exo-planetary scientists have likely solved the mystery -- with a bevy of older Kepler data, thus:
. . .Some exoplanets seem to be losing their atmospheres and shrinking. In a new study using NASA’s retired Kepler Space Telescope, astronomers find evidence of a possible cause: The cores of these planets are pushing away their atmospheres from the inside out.
Exoplanets (planets outside our solar system) come in a variety of sizes, from small, rocky planets to colossal gas giants. In the middle lie rocky super-Earths and larger sub-Neptunes with puffy atmospheres. But there’s a conspicuous absence – a “size gap” – of planets that fall between 1.5 to 2 times the size of Earth (or in between super-Earths and sub-Neptunes) that scientists have been working to better understand. . . .
[E]xactly how these planets are losing their atmospheres [and shrinking back to near Earth sizes] has remained a mystery. Scientists have settled on two likely mechanisms: One is called core-powered mass loss; and the other, photoevaporation. This study has uncovered new evidence supporting the first. . . .
Now you know. . . now, a middle school geared NASA explainer:
And. . . hey there, you "Super Earth", out now, around Portland, Tenn. (likely on a field trip) -- grinning. . . .
नमस्ते
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