Scientists discover thick atmosphere enveloping rocky so-called 'super Earth' planet
Super Earth refers to a planet larger than Earth but smaller than Neptune
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- Researchers have detected a thick atmosphere around a planet called 55 Cancri e, which is twice as big as Earth and classified as a super Earth.
- The atmosphere of 55 Cancri e consists of carbon dioxide and carbon monoxide, although exact quantities are uncertain.
- Super Earth refers to a planet larger than Earth but smaller than Neptune.
A thick atmosphere has been detected around a planet that’s twice as big as Earth in a nearby solar system, researchers reported Wednesday.
The so-called super Earth — known as 55 Cancri e — is among the few rocky planets outside our solar system with a significant atmosphere, wrapped a blanket of carbon dioxide and carbon monoxide. The exact amounts are unclear. Earth’s atmosphere is a blend of nitrogen, oxygen, argon and other gases.
"It’s probably the firmest evidence yet that this planet has an atmosphere," said Ian Crossfield, an astronomer at the University of Kansas who studies exoplanets and was not involved with the research.
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The research was published in the journal Nature.
Super Earth refers to a planet’s size — bigger than Earth but smaller than Neptune. The boiling temperatures on this planet — which can reach as hot as 4,200 degrees Fahrenheit – mean that it is unlikely to host life.
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Instead, scientists say the discovery is a promising sign that other such rocky planets with thick atmospheres could exist that may be more hospitable.
The exoplanet 41 light years away is eight times heavier than Earth and circles its star Copernicus so closely that it has permanent day and night sides. A light-year is nearly 6 trillion miles. Its surface is encrusted with magma oceans.
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To identify the makeup of its atmosphere, researchers studied Webb Space Telescope observations before and after the planet passed behind its star.
They separated the light emitted from the planet versus its star and used the data to calculate the planet's temperature. There's evidence the planet's heat was being distributed more evenly across its surface – a party trick atmospheres are known for.
Gases from its magma oceans may play a key role in holding its atmosphere steady. Exploring this super Earth may also yield clues to how Earth and Mars might have evolved first with magma oceans that have since cooled, scientists say.
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"It’s a rare window," said Renyu Hu, a planetary scientist at NASA's Jet Propulsion Laboratory, who was part of the research. "We can look into this early phase of planet evolution."