These energetic eruptions seem to pop up in random locations in the cosmos and they appear and disappear in a matter of milliseconds, making them exceedingly hard to pinpoint. Until February, only a handful of definitive FRB signals had been uncovered in archival radio data. As these signals were recorded months or years in the past, follow-up observations were all but impossible, leaving the source of these flashes steeped in mystery.
But that was until the Australian 64-meter Parkes Radio Telescope got lucky and spotted an FRB erupt. Immediately, a collaboration of international astronomers were notified and other observatories slewed into the direction of the burst, zooming-in on its radio afterglow. The Japanese Subaru telescope on Mauna Kea in Hawaii was then able to zero-in on the burst’s location and identify a galaxy as the source.
Very quickly the collaboration made some conclusions based on the information they could gather from the source. The galaxy was an old elliptical located around 6 billion light-years from Earth. This galaxy shows little sign of star formation, so it was pretty clear that FRBs (at least in this isolated case) probably aren’t related to star formation processes.
The FRB signal, dubbed “FRB 150418″, was even used to test some of our models of the cosmos — through the analysis of the signal and knowing where it had some from, astrophysicists were able to measure the cosmic expansion and the quantity of dark matter the radio emission traveled through.
Although much hope was pinned on the February event being evidence of a new cosmic phenomenon, concerns from the astronomical community quickly surfaced: Was FRB 150418 really an FRB? Or was it a known phenomenon masquerading as the mysterious pulse?
In a new study accepted for publication in the Astrophysical Journal Letters, Harvard astronomers Peter Williams and Edo Berger think that this particular signal was actually a case of mistaken identity and the real source of FRBs remains a mystery.
Using the NSF’s Jansky Very Large Array in New Mexico, Williams and Berger was able to gather radio data from the suspect galaxy that produced FRB 150418 and they detected even more radio pulses. FRBs are thought to be one-shot deals; they flash, generating a huge energy output for a few milliseconds and then they disappear. This galaxy, however, was still generating flashes of radio emissions, some as powerful as the measurements of FRB 150418′s radio afterglow.
“What the other team saw was nothing unusual,” said Berger in a statement. “The radio emission from this source goes up and down, but it never goes away. That means it can’t be associated with the fast radio burst.”
Read more at Discovery News
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