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China's FAST telescope detects weird repeating fast radio burst

(Xinhua) 14:41, June 09, 2022

BEIJING, June 9 (Xinhua) -- Scientists have found a highly active, repeating Fast Radio Burst (FRB), only the second example of its kind, which is hinting at the evolutionary picture of those mysterious cosmic events.

FRBs are the brightest millisecond-duration astronomical transients in radio bands with yet unknown origins. Less than five percent of them ever detected have been seen to repeat and only a few are persistently active.

Using the Five-hundred-meter Aperture Spherical Radio Telescope (FAST), also dubbed "China Sky Eye," an international team led by astronomers from the National Astronomical Observatories under the Chinese Academy of Sciences (NAOC) has discovered and localized an active repeating fast radio burst called FRB 20190520B in a metal-poor dwarf galaxy nearly three billion light-years from Earth.

Then, telescopes including the Very Large Array, the Palomar telescope, the Keck Telescope, Subaru Telescope and Canada-France-Hawaii Telescope continued the observations, respectively, to confirm the FRB 20190520B.

The scientists said that FRB 20190520B seems to reside in a complex plasma environment resembling that in a super luminous supernova, suggesting that it may be a "newborn."

It is the second example of a highly active FRB with repeating bursts and persistent radio emission between bursts coming from a compact region, after the discovery of the first repeater FRB 20121102A in 2016, according to the study published on Wednesday in the journal Nature.

The differences between the two FRBs and all the others have hinted at a possibility that there may be two different kinds of FRBs, said the researchers.

Now, candidates for the FRB sources are the superdense neutron stars left over after a massive star explodes as a supernova, or neutron stars with ultra-strong magnetic fields, called magnetars.

The astronomers said that there may be either two different mechanisms or that the objects producing them act differently at different stages of their evolution.

"We further postulate that FRB 20121102A and FRB 20190520B represent the initial stage of an evolving FRB population," said the paper's co-corresponding author Li Di with NAOC.

"A coherent picture of the origin and evolution of FRBs is likely to emerge in just a few years," said Li.

Located in a naturally deep and round karst depression in southwest China's Guizhou Province, FAST started formal operation in January 2020 and officially opened to the world on March 31, 2021. It is believed to be the world's most sensitive radio telescope. 

(Web editor: Peng Yukai, Hongyu)

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