Could Earth-like planets around small stars be habitable?

Earth-like planets orbiting close to small stars may have magnetic fields that protect them from stellar radiation and help maintain surface conditions that could be conducive to life, scientists say.

A planet's magnetic field emanates from its core and is thought to deflect the charged particles of the stellar wind, protecting the atmosphere from being lost to space. Magnetic fields, born from the cooling of a planet's interior, could also protect life on the surface from harmful radiation, as Earth's magnetic field protects us.

Low-mass stars are among the most common in the universe.

Planets orbiting near such stars are easier for astronomers to target for study because when they transit, or pass in front of, their host star, they block a larger fraction of the light than if they transited a more massive star. But because such a star is small and dim, its habitable zone - where an orbiting planet gets the heat necessary to maintain life-friendly liquid water on the surface - also lies relatively close in.

A planet so close to its star is subject to the star's powerful gravitational pull, which could cause it to become tidally locked, with the same side forever facing its host star, as the Moon is with Earth. That same gravitational tug from the star also creates tidally generated heat inside the planet, or tidal heating.

Tidal heating is responsible for driving the most volcanically active body in our solar system, Jupiter's moon Io.

In a paper published in the journal Astrobiology, lead author Peter Driscoll sought to determine the fate of such worlds across time. The research combined models of orbital interactions and heating by Rory Barnes, assistant professor of astronomy, with those of thermal evolution of planetary interiors done by Driscoll, who began this work as a University of Washington postdoctoral fellow and is now a geophysicist at the Carnegie Institution for Science in Washington, DC.

Their simulations ranged from one stellar mass - stars the size of our Sun - down to about one-tenth of that size. By merging their models, they were able, Barnes said, "to produce a more realistic picture of what is happening inside these planets."

Barnes said it was generally believed that tidally locked planets are unlikely to have protective magnetic fields "and therefore are completely at the mercy of their star." The new research suggests that assumption is false.

Far from being harmful to a planet's magnetic field, tidal heating can actually help it along - and in doing so also help the chance for habitability. This is because of the somewhat counterintuitive fact that the more tidal heating a planetary mantle experiences, the better it is at dissipating its heat, thereby cooling the core, which in turn helps create the magnetic field.

Barnes said that in computer simulations they were able to generate magnetic fields for the lifetimes of these planets, in most cases.

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