Toronto: Scientists have detected the second repeating fast radio burst (FRB) ever recorded, a discovery that may help determine the origin of these mysterious signals which have been linked with advanced alien technology in the past. Some scientists also believe that FRBs emanate from powerful astrophysical phenomena billions of light years away. However, the source of these signals, originating from far outside our Milky Way galaxy, are not well understood. In 2017, Harvard scientists have speculated that these FRBs might be leakage from planet-sized transmitters powering interstellar probes in distant galaxies.
Fast radio burst linked to alien source discovered
They said that since a natural origin can not be identified, an artificial or alien origin can be contemplated. "Whatever the source of these radio waves is, it's interesting to see how wide a range of frequencies it can produce. There are some models where intrinsically the source can't produce anything below a certain frequency," said Arun Naidu of McGill University in Canada, who was part of the team that detected the signal. The discovery of the extragalactic signal is among the first, eagerly awaited results from the Canadian Hydrogen Intensity Mapping Experiment (CHIME), a radio telescope inaugurated in 2017. "Until now, there was only one known repeating FRB.
Of the more than 60 FRBs observed to date, repeating bursts from a single source had been found only once before -- a discovery made by the Arecibo radio telescope in Puerto Rico in 2015. The majority of the 13 FRBs detected showed signs of "scattering," a phenomenon that reveals information about the environment surrounding a source of radio waves. The amount of scattering observed by the CHIME team led them to conclude that the sources of FRBs are powerful astrophysical objects more likely to be in locations with special characteristics. "That could mean in some sort of dense clump like a supernova remnant," said Cherry Ng, an astronomer at the University of Toronto in Canada. "Or near the central black hole in a galaxy.
But it has to be in some special place to give us all the scattering that we see," said Ng. Ever since FRBs were first detected, scientists have been piecing together the signals' observed characteristics to come up with models that might explain the sources of the mysterious bursts and provide some idea of the environments in which they occur. The detection by CHIME of FRBs at lower frequencies means some of these theories will need to be reconsidered.