Dozens of radio signals emanating from deep space have been discovered. These signals—known as fast radio bursts (FRBs)—were first discovered just over a decade ago and since then have posed a mystery for scientists studying them.
FRBs last just a few milliseconds and appear to be coming from a source beyond the Milky Way.
They are picked up by radio telescopes—but are normally only found by scientists in the data long after the event has ended. They have previously been compared to seeing the flash of a camera in a pitch black room, then trying to work out where the camera is located while still in the dark.
Around 40 separate events have been detected in total.
Another problem with studying FRBs is that they seem to mostly be one-off events. To date, only one repeating FRB has been discovered. FRB 121102 has been recorded repeating.
Recently Breakthrough Listen—an initiative to find intelligent alien life elsewhere in the universe—announced 72 more bursts had been discovered.
The source of this burst has been identified as a
galaxy 3.7 billion light-years away—but what is causing it still defies explanation.
In a study published in Nature , a team of scientists from Australia has announced the discovery of another 20 FRBs, vastly expanding the number of events recorded.
The researchers began their survey of the sky in January 2017. They used the Australian Square Kilometre Array Pathfinder (ASKAP) telescope and pointed each of the available antennas towards a different area of the sky.
This gave them a wide view of space, allowing them to scan for FRBs.
Over the course of the year, they found 20 previously unknown FRBs.
None of these were found to repeat, although they were able to get a better idea of how far away the source of the bursts is.
“We’ve proved that fast radio bursts are coming from the other side of the universe rather than from our own galactic neighborhood,” Ryan Shannon, from Swinburne University of Technology, said in a statement.
The bursts travel for billions of years. As they do, they pass through clouds of gas. When this happens, the wavelengths the burst is composed of slows slightly.
This allows scientists to work out how much material the burst has traveled through, giving an indication as to how far it has come.
One of the FRBs found was the “nearest and the most energetic bursts detected so far,” making it a prime candidate for future study, the researchers say. Identifying this FRB’s host galaxy will help distinguish between different burst sources.
As to what is causing the FRBs, scientists are still very much in the dark. Some have suggested one-off cataclysmic events like a neutron star collapsing into a black hole could produce them, but this wouldn’t explain the existence of the repeating FRB.
Andrew Siemion, Director of the Berkeley SETI Research Center and Principal Investigator on Breakthrough Listen, commented on the study. “The latest results from the ASKAP FRB team are very exciting,” he told Newsweek.
“In addition to nearly doubling the number of known FRB sources, this work reveals the existence of a population of very bright FRB sources that had been expected, but not known, to exist.
“The tentative identification of a host galaxy for one of the bursts will surely prompt additional follow-up.
The fact that these discoveries resulted from the team’s ingenuity in extending ASKAP’s already large field-of-view to the extreme is yet another demonstration of how exploring new parameter space can result in dramatic discoveries.”
“As is standard for FRB research up to this point, this work raises more questions than it answers. What is the cause of the diverse spectral properties seen in the bursts? Why were none of these bursts seen to repeat, even after very extensive follow-up? Do these FRBs represent a fundamentally different population than the one well-studied FRB known to repeat? As the team continues to build their observation capabilities, improving the fidelity of the captured data products as well as their ability to localize bursts, insights into the answers are likely to follow.”