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Red dwarf stars could strip away planetary protection

The magnetic fields of red dwarfs could squash down those found around planets like Earth, leaving any life vulnerable to radiation from space.
RELATED TOPICS: STARS | RED DWARF
Martian atmosphere
An artist's impression of how Mars lost most of its atmosphere after the loss of its magnetic field. Planets around red dwarfs may suffer a similar fate. // NASA
Red dwarf stars are the most common type of stars, making up about 75 percent of the stars in our galaxy. They are much smaller and much less massive than our Sun and, for that reason, a lot dimmer. If planets are found around these stars, then given the number of red dwarfs, life could be commonplace. But a group of scientists led by Aline Vidotto of the University of St. Andrews in Scotland has cast doubt on this idea. Their work suggests that the magnetic fields of red dwarfs could squash down those found around planets like Earth, leaving any life vulnerable to radiation from space.

Because of their faintness, even small planets in orbit around red dwarf stars block out a significant amount of light if they pass between the star and Earth. The low masses of these stars also mean that the gravitational pull of an Earth-sized planet is enough to make its star wobble as the planet moves around it. This motion leads to a back and forth shift in lines in the spectrum of the star that can be detected with telescopes on Earth.

Red dwarf stars are cooler than the Sun, so the so-called habitable or “Goldilocks” zone where life could develop is much closer in than in our solar system. Planets in the Goldilocks zone are at just the right temperature for liquid water to be found on their surfaces. All this makes red dwarfs prime targets in the search for Earth-like planets elsewhere in the galaxy. But there are other important factors that make planets good places to live, such as a reasonably thick atmosphere.

Over billions of years, the impact of charged particles from space can erode a planetary atmosphere. Planets that have relatively strong magnetic fields like Earth deflect these particles, at least within the surrounding region known as the magnetosphere, adding in a layer of protection for their atmospheres and making them more suitable for the creation and development of life.

A large proportion of the particles hitting a planet originate from the “stellar wind” flowing off its host star. The pressure of these particles pushes against the magnetosphere of a planet, so whenever the stellar wind is strong, it compresses this magnetic shield. In the case of Earth, the magnetosphere normally extends out to about 43,000 miles (70,000 kilometers).

Especially when they are relatively young, red dwarf stars have powerful magnetic fields of their own, with about a dozen of these being seen directly in recent years. These may have a very different effect on orbiting planets. Vidotto and her team have found that the extreme pressure from these fields may be strong enough to compress planetary magnetospheres enough that their atmospheres are stripped away completely over time, effectively rendering these worlds uninhabitable.

The new work shows that if Earth were in orbit at the inner edge of the Goldilocks zone of a young red dwarf star, equivalent to the way it orbits the Sun, its magnetosphere would extend no more than 22,000 miles (35,000km) and could even be crushed into the surface of the planet. To be benign environments for the development of life, Earth-like planets around red dwarfs will need strong magnetic fields or be significantly farther away from their stars, in which case they might be too cold for liquid water.

As stars age, their magnetic fields weaken, offering some respite for any planets in orbit around red dwarfs. The pace at which this happens will be a critical factor in how well the planetary atmospheres survive, but one way of refining the search for these objects will be to measure the speed of rotation of their stars, which also declines with age.

"Our work suggests that red dwarf stars with rotation periods larger than about one to a few months will have magnetic fields that won't significantly squash the magnetosphere of an Earth-analogue planet orbiting inside the habitable zone of its host star," said Vidotto. "Astronomers will have to take this on board in their search for life elsewhere — the conditions for habitability are turning out to be a lot more complex than we thought."
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