![]() The research team will continue to use CHIME to monitor the skies for more signals from this radio burst, as well as others with a similar, periodic signal. “We think this new signal could be a magnetar or pulsar on steroids,” Michilli said. The fast radio burst appears to be more than a million times brighter than these emissions. Both stellar objects create a signal akin to the flashing beam from a lighthouse. Magnetars are neutron stars with incredibly powerful magnetic fields, while radio pulsars release radio waves that appear to pulse as the neutron star rotates. When the researchers analyzed FRB 20191221A, the signal was similar to the emissions released by two different types of neutron stars, or the dense remnants after a giant star dies, called radio pulsars and magnetars. Over a thousand cosmic explosions traced to mysterious repeating fast radio burst From the properties of this new signal, we can say that around this source, there’s a cloud of plasma that must be extremely turbulent.”įAST catches a real pulse from FRB 121102. “We’ve seen some that live inside clouds that are very turbulent, while others look like they’re in clean environments. “CHIME has now detected many FRBs with different properties,” Michilli said. However, CHIME is being upgraded through a project where additional telescopes, currently under construction, will observe together and be able to triangulate radio bursts to specific galaxies, he said.īut the signal does contain clues about where it came from and what may have caused it. While CHIME is primed to search for bursts of radio waves, it’s not as good at locating their origin points. The research team doesn’t know the exact galaxy from which the burst originated and even the distance estimate of a billion light-years is “highly uncertain,” Michilli said. While FRB 20191221A has not yet repeated, “the signal is formed by a train of consecutive peaks that we found to be separated by ~0.2 seconds,” he said in an email. This is the first time the signal itself is periodic.” “Not only was it very long, lasting about three seconds, but there were periodic peaks that were remarkably precise, emitting every fraction of a second - boom, boom, boom - like a heartbeat. The signal is the longest-lasting fast radio burst to date. Michilli was monitoring the data as it came in from CHIME, when the burst occurred. ![]() Pictured is the large radio telescope CHIME that picked up the burst FRB 20191221A. ![]() The signal, named FRB 20191221A, lasted for up to three seconds – which is about 1,000 times longer than typical fast radio bursts. This telescope, in operation since 2018, constantly observes the sky and, in addition to fast radio bursts, is sensitive to radio waves emitted by distant hydrogen in the universe.Īstronomers using CHIME spotted something on December 21, 2019, that immediately caught their attention: a fast radio burst that was “peculiar in many ways,” according to Daniele Michilli, a postdoctoral researcher in the Massachusetts Institute of Technology’s Kavli Institute for Astrophysics and Space Research. One resource used to spot them is a radio telescope called the Canadian Hydrogen Intensity Mapping Experiment, or CHIME, at the Dominion Radio Astrophysical Observatory in British Columbia, Canada. New unusual repeating fast radio burst detected 3 billion light-years awayįast radio bursts are so quick and unexpected that they’re difficult to observe. Magnetars are a leading candidate for what generates Fast Radio Bursts.Ĭredit: Bill Saxton, NRAO/AUI/NSF Bill Saxton, NRAO/AUI/NSF Artist's conception of a neutron star with an ultra-strong magnetic field, called a magnetar, emitting radio waves (red).
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