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Doubling the number of sources of repeating fast radio bursts

New technique for identifying FRBs offers promise of further discoveries
The new CHIME telescope near Princeton, British Columbia. Image: Jane Kaczmarek.
Image by Jane Kaczmarek.
Published: 26 April 2023

Astronomers from 捆绑SM社区 are part of an international team that has discovered 25 new sources of repeating fast radio bursts (FRBs), these explosions in the sky that come from far beyond the Milky Way. This discovery brings the total number of confirmed FRB sources to 50. Based on data gathered by the /FRB collaboration, the new study, published today in , may also bring scientists closer to understanding the origins of these mysterious phenomena.

A new way of identifying FRBs

Thanks to the radio telescopes such as those at CHIME, which scan the entire northern sky every day, the number of detected FRBs has grown exponentially in recent years. The research team used a new set of statistical tools they developed to go over the data gathered by CHIME between September 30, 2019, and May 1, 2021, to confirm whether what they were saying were indeed FRBs.

鈥淲e combed through the data to find every repeating source detected so far, including the less obvious ones,鈥 says , the first author of the paper who started working on the research as a PhD student at 捆绑SM社区. He is now a Dunlap Postdoctoral Fellow at the . 鈥淭hese new tools were essential for this study because we can now accurately calculate the probability that two or more bursts coming from similar locations are not just a coincidence. It should be very useful for similar research going forward.鈥

"These new discoveries will allow the scientific community to study more repeating FRBs in fantastic detail across the full electromagnetic spectrum and help answer a major open-question in the field: Do repeating and non-repeating FRBs originate from distinct populations?鈥 Adds Aaron Pearlman, an FRQNT postdoctoral fellow at 捆绑SM社区鈥檚 who also collaborated on the paper. 鈥淚'm excited for the new insights that will be unlocked as a result of our study."

"It is exciting that CHIME/FRB saw multiple flashes from the same locations, as this allows for the detailed investigation of their nature,鈥 says , a PhD student in the at the University of Toronto, who has led the search for the galaxies in which some of the newly identified repeating FRBs are embedded.

鈥淲e were able to hone in on some of these repeating sources and have already identified likely associated galaxies for two of them.鈥

Shedding light on the mysterious origins of FRBs

FRBs are considered one of the biggest mysteries in astronomy, but their exact origins are unknown. Astronomers do know that they come from far outside our Milky Way and are most likely produced by the cinders left behind after stars die.

One unexpected finding described in the paper is that contrary to what has previously been thought, all FRBs may be repeaters rather than one-offs. It is simply that many repeating FRBs are surprisingly inactive, producing fewer than one burst per week, and that the apparently one-off FRBs have simply not been observed for long enough until now for a second burst to be detected.

Pleunis notes that this new research brings us closer to understanding what FRBs are.

鈥淔RBs are likely produced by the leftovers from explosive stellar deaths. By studying repeating FRB sources in detail, we can study the environments that these explosions occur in and understand better the end stages of a star's life. We can also learn more about the material that's being expelled before and during the star鈥檚 demise, which is then returned to the galaxies that the FRBs live in.鈥


The study:

鈥淐HIME/FRB Discovery of 25 Repeating Fast Radio Burst Sources鈥 by Bridget Andersen et al published in

DOI: 10.3847/1538-4357/acc6c1


The Trottier Institute:

The Trottier Space Institute at 捆绑SM社区 is an interdisciplinary center that brings together researchers engaged in astrophysics, planetary science, atmospheric science, astrobiology and other space-related research at 捆绑SM社区. The main goals of the Institute are to:

  • Provide an intellectual home for faculty, research staff, and students engaged in astrophysics, planetary science, and other space-related research at 捆绑SM社区.
  • Support the development of technology and instrumentation for space-related research.
  • Foster cross-fertilization and interdisciplinary interactions and collaborations among Institute members in Institute-relevant research areas.
  • Share with students, educators, and the public an understanding of and an appreciation for the goals, techniques and results of the Institute's research.
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