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SPARCS, a NASA-funded CubeSat mission led by Arizona State University, will monitor nearby red dwarf stars for flare activity and sunspots in order to assess their habitability:
In 2021, a spacecraft the size of a Cheerios box will carry a small telescope into Earth orbit on an unusual mission. Its task is to monitor the flares and sunspots of small stars to assess how habitable the space environment is for planets orbiting them.
The spacecraft, known as the Star-Planet Activity Research CubeSat, or SPARCS for short, is a new NASA-funded space telescope. The mission, including spacecraft design, integration and resulting science, is led by Arizona State University's School of Earth and Space Exploration (SESE).
"This is a mission to the borderland of astrophysics and astrobiology," said Evgenya Shkolnik, assistant professor in SESE and principal investigator for the SPARCS mission. "We're going to study the habitability and high-energy environment around stars that we call M dwarfs."
[...] Because M dwarfs are so plentiful, astronomers estimate that our galaxy alone contains roughly 40 billion — that's billion with a B — rocky planets in habitable zones around their stars. This means that most of the habitable-zone planets in our galaxy orbit M dwarfs. In fact, the nearest one, dubbed Proxima b, lies just 4.2 light-years away, which is on our doorstep in astronomical terms.
(Score: 0) by Anonymous Coward on Tuesday January 16 2018, @11:50AM
Not sure what you are saying here. Are you saying that planets are more common around red dwarfs? Because that is almost decisively false. It is simply easier to detect planets around red dwarfs because they are closer to their stars.