SETI's New Alien Life Hunt Targets 20,000 Small, Dim Stars

SETI's New Alien Life Hunt Targets 20,000 Small, Dim Stars

The SETI Institute’s Allen Telescope Array in Hat Creek, California is now searching 20,000 red dwarf stars for signs of intelligent life.

Credit: Seth Shostak, SETI Institute

The search for intelligent aliens has expanded to include thousands of star systems very different from that of Earth.

Scientists with the SETI (Search for Extraterrestrial Intelligence) Institute in Mountain View, California have just begun a two-year hunt for signs of alien civilizations around 20,000 red dwarfs — stars considerably smaller and dimmer than Earth’s sun.

Red dwarfs are promising targets for SETI scientists. They are the most common stars in the Milky Way, making up about 75 percent of the galaxy’s stellar population. And because red dwarfs burn through their fuel slowly, they live a long time; on average, the Milky Way’s red dwarfs are billions of years older than the sun, researchers said. [13 Ways to Contact Intelligent Aliens ]

<img class=”pure-img” big-src=”http://www.space.com/images/i/000/049/081/original/seti-search-for-et-intelligence-160127a-02.jpg?1453921100″ src=”http://www.space.com/images/i/000/049/081/i300/seti-search-for-et-intelligence-160127a-02.jpg?1453921100?interpolation=lanczos-none&downsize=192:*” alt=”Are we the only intelligent life in the universe? See how we intend to find out in this full infographic .” data-options-closecontrol=”true” data-options-fullsize=”true”/>

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“This may be one instance in which older is better,” SETI Institute astronomer Seth Shostak said in a statement . “Older solar systems have had more time to produce intelligent species.”

Despite these characteristics, however, SETI hunts to date have focused primarily on sunlike stars, for several reasons. For one thing, the one example of life that scientists know about resides in such a system.

In addition, red dwarfs possess relatively narrow “habitable zones” — the range of distances from a star at which liquid water can exist on a world’s surface. Furthermore, any planets in a red dwarf’s habitable zone would be quite close to the star, and would therefore likely be tidally locked, showing just one face to the star (as the moon shows just one face to Earth). Tidally locked planets are probably roasting-hot on one on side and freezing-cold on the other, making them unlikely candidates to support life, the thinking went.

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But recent research has caused a reassessment of red dwarf systems’ potential habitability. For example, exoplanet discoveries suggest that a large fraction of red dwarfs — between one-sixth and one-half, in fact — host planets in their habitable zone. And modeling work indicates that even tidally locked planets could conceivably support Earthlike life if they harbor oceans and an atmosphere, which together would transport heat around such worlds. 

The new hunt will employ the SETI Institute’s Allen Telescope Array (ATA), a system of 42 radio dishes in northern California. The ATA will scan 20,000 red dwarfs that will be chosen from a list of 70,000 such stars compiled by Boston University astronomer Andrew West, SETI Institute scientists said. Relevant data gathered by NASA’s Transiting Exoplanet Survey Satellite (TESS), which is scheduled to launch next year, will be incorporated as well, they added.

“We’ll scrutinize targeted systems over several frequency bands between 1 and 10 GHz [gigahertz],” SETI Institute scientist Gerry Harp said in the same statement. “Roughly half of those bands will be at so-called ‘magic frequencies’ – places on the radio dial that are directly related to basic mathematical constants. It’s reasonable to speculate that extraterrestrials trying to attract attention might generate signals at such special frequencies.”

Follow Mike Wall on Twitter @michaeldwall  and Google+ . Follow us @Spacedotcom , Facebook  or Google+ . Originally published on Space.com .

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