Fast radio bursts — strange, sometimes repeating signals from the other side of the cosmos — are really having a moment in 2020. The origins of the mysterious signals from deep space continue to puzzle scientists as they briefly and sporadically buzz the Earth. But as the numbers of FRBs discovered continue to stack up, astronomers are beginning to understand them a little more, and in May even used them to solve the universe's missing matter problem.
Although many bursts astronomers have detected are one-offs, a particular burst, known as FRB 180916.J0158+65, is particularly loud and constant, having been detected 38 times.
For more like this
Subscribe to the CNET Now newsletter for our editors' picks for the most important stories of the day.
A study, published Wednesday in the journal Nature by researchers from the Canadian Hydrogen Intensity Mapping Experiment Fast Radio Burst (CHIME/FRB) collaboration, detail the repeating bursts of FRB 180916.J0158+65 from September 2018 to February 2020. The burst has previously been localized to a spiral galaxy some 500 million light-years away, and the CHIME/FRB collaboration documented its unusual rhythm in a preprint paper in February.
Using the huge ground-based CHIME telescope, situated in British Columbia, researchers detected the deep space signals with a 16-day regularity. Over four days, they'd detect the radio bursts every hour or so, before the signals suddenly stopped. Then, after 12 days of silence, they'd kick back up again.
Repeating bursts offer the best chance to try to understand what might be causing FRBs because they give astronomers a second, third or 38th look at the signal. There are dozens of theories, but the source of the signals remains a mystery. One prominent theory is that FRBs are caused by magnetars, a type of neutron star with an extremely powerful magnetic field. These stars rotate on their axis and may emit beams of energy, but our current understanding of these cosmic beasts suggests they would spin too fast to have the periodicity observed in FRB 180916.J0158+65.
What is a black hole? The universe's dark, mysterious monsters
See all photos
Another theory posits that they are just a regular, old neutron star with a focused radio beam that only occasionally sweeps across our field of view on Earth. Perhaps, even, a nearby black hole is disrupting the signal thanks to its huge gravitational pull. Astronomers still don't know.
Complicating matters even more is that many of the detected ultra-powerful radio signals don't repeat. We hear them, and they disappear. With more repeaters being discovered, we edge closer to understanding their nature. In 2019, the CHIME collaboration discovered a new set of eight repeating bursts that can be used for follow-up analysis. It's hoped that by studying the repeating bursts, astronomers will be able to shed light on these mysterious signals.
More recently, a second repeating burst was found with an unusual periodicity. Its cycle seemed to work on a 157-day timeline — 90 days of activity and 67 when it went silent.
Astronomers will need to keep their telescopes focused on repeating FRBs over long periods to pull apart exactly what they are. There's also a possibility that further investigation will reveal FRB 180916.J0158+65's unusual rhythm isn't a rhythm at all. Whatever the case — and I know what you're thinking — it's very, very unlikely to be aliens.
Discussing repeating bursts last year, Adam Deller, an astrophysicist at Swinburne University of Technology, said, "I think in all likelihood we'll work out a natural explanation for these events, but I like to keep an open mind and follow wherever the evidence leads me."
This post originally appeared in February and has been updated now that the work has been peer-reviewed.
Comments Notification on Notification off Sci-Tech