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Scientists discover ANOTHER strange signal coming from space - and this one is even 'weirder' than the first


Since being discovered 15 years ago, mysterious fast radio bursts have been one of the hottest topics in astronomy.


These sudden and intense pulses of radio-frequency electromagnetic radiation – detected by telescopes around the world – are used to probe the space between galaxies, but little is actually known about them. 


Some seem to be one-off events, hinting that a catastrophic explosion such as an extreme supernova might be to blame.


But less than 5 per cent of the hundreds spotted have been seen to repeat, occasionally on a regular pattern.


Now a new repeating fast radio burst has been detected in the outskirts of a metal-poor dwarf galaxy nearly 3 billion light-years from Earth – and this one is younger and even 'weirder' than the first to ever be identified.


Researchers say the discovery may have implications for the way in which fast radio bursts are used to study the universe.

Since being discovered 15 years ago, mysterious fast radio bursts have been one of the hottest topics in astronomy. Now a new repeating fast radio burst has been detected in a metal-poor dwarf galaxy – and this one is younger and even 'weirder' than the first to ever be identified

Pictured is an artist's impression of a fast radio burst from a magnetar - stellar remnants with some of the most intense magnetic fields in the universe


An international team led by Dr LI Di, from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), spotted the active repeating fast radio burst, known as FRB 190520B. 


It has been confirmed as being associated with a compact persistent radio source, making it only the second such counterpart to be identified, after the discovery of the first repeater FRB 121102A. 


But the new repeating fast radio burst has never stopped since its discovery, the researchers said, so is the only one discovered so far to be so persistently active.  


They said that FRB190520B seems to reside in a complex plasma environment with characteristics resembling those of a super luminous supernova, thus suggesting it may be a 'newborn'. 


The experts said the behavior of the new repeating fast radio burst was similar to FRB 121102A but more extreme.


They added that the discovery hints at an evolutionary picture of fast radio bursts.


The new and strange repeater was discovered by the Commensal Radio Astronomy FAST Survey (CRAFTS), which is led by Dr Li and is one of five legacy programs of the Five-hundred-meter Aperture Spherical radio Telescope (FAST) observatory (pictured)


'We further postulate that FRB 121102A and FRB 190520B represent the initial stage of an evolving FRB (fast radio burst) population. A coherent picture of the origin and evolution of FRBs is likely to emerge in just a few years,' said Dr LI. 


The new and strange repeater was discovered by the Commensal Radio Astronomy FAST Survey (CRAFTS), which is led by Dr Li and is one of five legacy programs of the Five-hundred-meter Aperture Spherical radio Telescope (FAST) observatory. 


Fast radio bursts – described as 'brief and mysterious beacons' – have been spotted in various and distant parts of the universe, as well as in our own galaxy.


Their origins are unknown, and their appearance is unpredictable. 


Previous observations strongly suggest that repeaters and one-offs arise from separate mechanisms and astrophysical sources.


As radio waves travel across space, any interstellar gas or plasma along the way can distort or disperse the wave's properties and trajectory.


The degree to which a radio wave is dispersed can give clues to how much gas it has passed through, and possibly how much distance it has travelled from its source.


Most of the bursts flare just once and are then never seen again – making them impossible to predict, according to astronomers.


Some show repeat activity, but until recently that was found to be completely random.


The presence of a regular sequence in the burst activity could imply that the powerful bursts are linked to large-scale cosmic phenomenon.


These could include the orbital motion of a massive star, a neutron star in a binary system or a black hole.


The new discovery has been published in the journal Nature.

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