Scientists Discover ‘Super-Earth’ That’s Only Six Light Years Away

Astronomers have been looking for exoplanets around Barnard’s Star for decades. Now, they’ve finally spotted one.
​Concept art of Barnard Star b's surface. Image: ESO/M. Kornmesser
Concept art of Barnard Star b's surface. Image: ESO/M. Kornmesser

Scientists have discovered a “Super-Earth” orbiting Barnard’s Star, a red dwarf located just six light years from our solar system.

The exoplanet, called Barnard’s Star b, is the closest world to Earth ever detected in a single star system, and the second closest of all known exoplanets after Proxima b, an Earth-scale world located four light years away in the triple-star Alpha Centauri system. It is at least 3.2 times as massive as Earth and has a year of 233 days and an estimated surface temperature of around -170°C (-274°F).


This major discovery is the culmination of an international partnership led by Ignasi Ribas, a stellar astrophysicist at the Institute of Space Studies of Catalonia. The team analyzed 20 years of observations catalogued by seven astronomical instruments, and published the results on Wednesday in Nature.


Relative distances of Alpha Centauri and Barnard’s Star compared to the Sun. Image: IEEC/Science-Wave - Guillem Ramisa

"This discovery means a boost to continue searching for exoplanets around our closest stellar neighbours, in the hope that eventually we will come upon one that has the right conditions to host life,” study co-author Cristina Rodríguez-López, a researcher at the Institute of Astrophysics of Andalusia, said in a statement.

Barnard’s Star has been an object of intense astronomical interest for a century due to its proximity to Earth, fast motion through our skies, and advanced age of seven to 12 billion years. Red dwarfs often produce violent flares that could render life on their planets improbable, but Barnard’s Star is relatively inactive and stable (though it does still flare sometimes). All these characteristics have distinguished the system as a candidate for potential habitable environments in our local cosmic neighborhood.

Wary of past false detections of exoplanets around Barnard’s Star, Ribas and his colleagues bolstered their research with 771 measurements sourced from specialized tools such as the CARMENES spectrometer in Spain, the ESO/HARPS instrument in Chile, and the HIRES instrument on the Keck telescope in Hawaii.


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This glut of data revealed shifts in Barnard’s Star’s radial velocity, meaning that the red dwarf was slightly wobbling as if an orbiting object was gravitationally tugging at it. The researchers concluded that it was overwhelmingly likely that these shifts were caused by a Super-Earth, but hope to get more information from other observatories to corroborate the discovery.

"After a very careful analysis, we are 99 percent confident that the planet is there," Ribas said in a statement. "However, we'll continue to observe this fast-moving star to exclude possible, but improbable, natural variations of the stellar brightness, which could masquerade as a planet."

Barnard’s Star b is located in the star’s “snow line,” which means any water is probably frozen on the planet’s surface. That makes it an unlikely habitat for life as we know it on Earth, though there’s no harm in daydreaming of Tauntauns or Wampas roaming its wilds.

Ultimately, what’s most important about the discovery is the emerging consensus that there are many tantalizing planets orbiting stars close to Earth—and astronomers are only getting better at spotting them.

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