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CHIME Telescope Detects More Than 500 Mysterious Fast Radio Bursts From Outer Space:
To catch sight of a fast radio burst is to be extremely lucky in where and when you point your radio dish. Fast radio bursts, or FRBs, are oddly bright flashes of light, registering in the radio band of the electromagnetic spectrum, that blaze for a few milliseconds before vanishing without a trace.
These 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. Since the first was discovered in 2007, radio astronomers have only caught sight of around 140 bursts in their scopes.
Now, a large stationary radio telescope in British Columbia has nearly quadrupled the number of fast radio bursts discovered to date. The telescope, known as CHIME, for the Canadian Hydrogen Intensity Mapping Experiment, has detected 535 new fast radio bursts during its first year of operation, between 2018 and 2019.
Scientists with the CHIME Collaboration, including researchers at MIT, have assembled the new signals in the telescope's first FRB catalog, which they will present this week at the American Astronomical Society Meeting.
The new catalog significantly expands the current library of known FRBs, and is already yielding clues as to their properties. For instance, the newly discovered bursts appear to fall in two distinct classes: those that repeat, and those that don't. Scientists identified 18 FRB sources that burst repeatedly, while the rest appear to be one-offs. The repeaters also look different, with each burst lasting slightly longer and emitting more focused radio frequencies than bursts from single, nonrepeating FRBs.
These observations strongly suggest that repeaters and one-offs arise from separate mechanisms and astrophysical sources. With more observations, astronomers hope soon to pin down the extreme origins of these curiously bright signals.
"Before CHIME, there were less than 100 total discovered FRBs; now, after one year of observation, we've discovered hundreds more," says CHIME member Kaitlyn Shin, a graduate student in MIT's Department of Physics. "With all these sources, we can really start getting a picture of what FRBs look like as a whole, what astrophysics might be driving these events, and how they can be used to study the universe going forward."
(Score: 2) by hendrikboom on Friday June 11 2021, @05:17PM (2 children)
Doesn't loop quantum gravity predict a very slight difference in the velocity of light depending on frequency? I seen to remember reading that it might amount to a few microseconds after a journey from the farthest known observables.
Is this of the right magnitude? Is it even in the right direction?
(Score: 2) by JoeMerchant on Friday June 11 2021, @05:28PM (1 child)
I think the delay was on the order of seconds - maybe 10s of seconds. Article at the time was hypothesizing something about the first wave emanating from the core of the dying star while the later wave waited until the shock wave traveled to its surface, or something along those lines.
🌻🌻 [google.com]
(Score: 2) by hendrikboom on Saturday June 12 2021, @04:04PM
That would make this phenomenon useless as a test for loop quantum gravity. Too bad.