A group of scientists has revealed they have sent a detailed message to a nearby planet in the hope of contacting alien life – and hope to send another soon.
The project, called Sónar Calling GJ273b, was a collaboration between METI International (Messaging Extraterrestrial Intelligence), a music festival in Barcelona called Sónar, and The Institute of Space Studies of Catalonia (IEEC).
On October 16, 17, and 18 of this year, the group sent a batch of transmissions using the EISCAT (European Incoherent SCATter Scientific Association) antenna in Tromsø, Norway. Those transmissions have been announced for the first time today.
The messages were sent to the exoplanet GJ 273b, a super-Earth about 2.9 times the size of our planet that orbits in its star’s habitable zone. The star is known as Luyten’s Star, or GJ 273, a red dwarf located about 12.4 light-years from Earth. If there’s anyone there, we could expect a reply in about 25 years.
“We selected Luyten’s star, also known as GJ273 because it’s the closest star that’s visible from the northern hemisphere that is known to have a potentially habitable exoplanet in orbit,” Douglas Vakoch, President of METI, told IFLScience.
These are the first interstellar messages ever sent by METI, but today’s announcement comes on an important anniversary. Forty-three years ago, the famous Arecibo Message was sent towards the globular cluster M13, 25,000 light-years from Earth, in the hopes of making contact. A reply from any planets there would take 50,000 years – so this latest initiative aims to speed things up a bit.
The project is a bit of an odd marriage in truth between a music festival and an organization that is actively trying to make contact with life in the universe. But there is some science behind it, as the message contains useful tidbits about Earth that would help any intelligent aliens on this planet discern that we exist.
“This project tests the Zoo Hypothesis, which says that perhaps extraterrestrial civilizations are much closer than we’d imagined, perhaps even around the nearest stars, but they’re watching us like we watch animals in the zoo,” said Vakoch.
“In the more realistic scenario that intelligent life is rare in the galaxy, we may need to signal a thousand or a million stars before we get a response.”