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CHIME study involving U of T astronomers finds fast radio bursts repeat 'on the time scale of weeks'

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The findings, described by U of T researcher Dongzi Li as "unexpected," are the first to demonstrate that repeating FRBs can burst predictably (photo courtesy CHIME)

A Canadian-led team of astronomers, including researchers from the University of Toronto鈥檚 Dunlap Institute for Astronomy & Astrophysics, has discovered that a repeating fast radio burst (FRB) originating from a nearby galaxy pulses at regular intervals.

Researchers with the Canadian Hydrogen Intensity Mapping Experiment (CHIME) Fast Radio Burst Collaboration used the CHIME telescope in British Columbia to show that the repeating radio source known as FRB 180916.J0158+65 鈥 first discovered in 2018 by the same group 鈥 pulsates every 16.35 days.

The findings, described in a study , are the first to demonstrate that repeating FRBs can burst predictably.

The finding was unexpected. 鈥淲e were surprised by the fact that the FRB has regular activity on the time scale of weeks,鈥 said Dongzi Li, a PhD student at Dunlap and corresponding author of the paper. 鈥淢ost people would expect it to be at much shorter time scales, like seconds or even milliseconds, from rotation of a compact star. Any explanation for a 16-day cycle is likely very different.鈥

FRBs were discovered over a decade ago. First thought to be singular events, astronomers have since learned that some of these high-intensity blasts of radio emissions, in fact, repeat.

Though the explanation for the mysterious phenomenon is still elusive, the new study is another step towards determining what might be causing FRBs.

鈥淭here are suddenly lots of concrete questions to ask and to follow-up on,鈥 explains Li. 鈥淚f any observed properties of the bursts change regularly with the same 16.35-day period, it will tell us about the environment close to the burst.鈥

Earlier this year, astronomers in Europe, in partnership with the CHIME/FRB Collaboration, were able to pinpoint FRB 180916 to a nearby galaxy located 500 million light years from Earth.  Astronomers worldwide are now studying the source with a variety of telescopes, in the hopes of explaining the repetition.

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