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Researchers Suffocate Hopes of Life Support in Red Dwarf "Habitable Zones"

Accepted submission by takyon at 2017-02-09 01:27:10
Science

Astrophysicists have modeled the effects of red dwarf star flare activity on the atmospheres of orbiting exoplanets, and found that heavy gases including oxygen would be lost quickly, [nasa.gov] even in the so-called "habitable zone":

[When] the scientists accounted for superflares, their new model indicates the violent storms of young red dwarfs generate enough high-energy radiation to enable the escape of even oxygen and nitrogen – building blocks for life's essential molecules.

"The more X-ray and extreme ultraviolet energy there is, the more electrons are generated and the stronger the ion escape effect becomes," Glocer said. "This effect is very sensitive to the amount of energy the star emits, which means it must play a strong role in determining what is and is not a habitable planet."

Considering oxygen escape alone, the model estimates a young red dwarf could render a close-in exoplanet uninhabitable within a few tens to a hundred million years. The loss of both atmospheric hydrogen and oxygen would reduce and eliminate the planet's water supply before life would have a chance to develop.

"The results of this work could have profound implications for the atmospheric chemistry of these worlds," said Shawn Domagal-Goldman, a Goddard space scientist not involved with the study. "The team's conclusions will impact our ongoing studies of missions that would search for signs of life in the chemical composition of those atmospheres."

The research has obvious implications for exoplanets like Proxima Centauri b [wikipedia.org].

YouTube video [youtube.com] (20 seconds).

How Hospitable Are Space Weather Affected Habitable Zones? The Role of Ion Escape [iop.org] (DOI: 10.3847/2041-8213/836/1/L3) (DX [doi.org])


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