No alien 'signals' from cigar-shaped asteroid, say researchers

An artist's impression of cigar-shaped Oumuamua, which is from outside our planetary system.
An artist's impression of cigar-shaped Oumuamua, which is from outside our planetary system.PHOTO: NASA/EUROPEAN SOUTHERN OBSERVATORY

PARIS (AFP) - No alien signals have been detected from an interstellar, cigar-shaped space rock discovered travelling through our Solar System in October, researchers listening for evidence of extraterrestrial technology said on Thursday (Dec 14).

The object, dubbed Oumuamua, was spotted by several Earthly telescopes two months ago.

Given its weird trajectory, surprised researchers immediately concluded it was from beyond our planetary system - the first interstellar object ever identified in our midst.

The rock is thought to be about 400m long, and thin - only about 40m wide, a never-before-seen shape for an asteroid.

After its discovery was announced last month, a project called Breakthrough Listen, dedicated to finding signs of extraterrestrial intelligence, said it would study the rock for artificial signals.

"No such signals have been detected" by its network of telescopes, the project said on Thursday, adding: "the analysis is not yet complete".

Oumuamua is a Hawaiian name meaning "messenger" or "scout".

This scout may have been travelling through space for hundreds of millions, even billions, of years.

Prior to its discovery, none of the 750,000-odd known asteroids and comets in the Solar System were thought to have originated elsewhere.

"Oumuamua is most likely an asteroid, ejected from its host star in some chaotic event billions of years ago, and finding its way to our Solar System by chance," Andrew Siemion of the University of California Berkeley told AFP. He heads the Breakthrough Listen laboratory.

According to Nasa, the object is travelling at about 38.3 kilometres per second relative to the Sun. It is about 200 million kilometres from Earth.

It passed Mars' orbit in November, and will pass by that of Jupiter in May next year, before exiting beyond Saturn's orbit in January 2019.