“#Something in space is blasting radio signals at Earth”
June 9, 2020 | 1:24pm
This rich and dense smattering of stars is a massive globular cluster, a gravitationally-bound collection of stars that orbits the Milky Way.
ESA/Hubble & NASA
The most famous of all Fast Radio Bursts is FRB 121102. It was the first FRB to pop up multiple times on a seemingly regular schedule, and researchers believe it’s on a 157-day cycle, getting loud for up to three months at a time before going quiet for a little over two months. FRB 180916 is completely different in its behavior, blasting energy toward Earth on a much shorter 16-day cycle. To put it bluntly, scientists are baffled.
One of the strongest theories scientists have come up with to explain FRBs was reported just last month. An FRB was detected from within our own Milky Way, which is the closest we’ve ever heard one. So close, in fact, that astronomers were able to venture a guess as to what caused it: An object with intense magnetic properties called a Magnetar.
Magnetars are a variant of neutron stars that are incredibly dense. Their mass is under extreme pressure and, as happens here on Earth when pressures in the surface crust lead to movement, magnetars experience “starquakes.” Because the surface of the magnetar has so much potential energy stored up, even tiny collapses and shifts can produce a blast of radio energy that could be detected from incredible distances, or at least that’s the theory.
This may explain the one-off FRBs that astronomers have heard in the cosmos, but what about the ones that repeat on regular intervals? The researchers say a “wobble” in the rotational axis of a magnetar could explain the on-again/off-again nature of the repeating FRBs, or they may be the result of other neutron star activity not related specifically to magnetars.
The truth is, nobody can really explain why some FRBs appear once and then seem to disappear just as fast, while others repeat over the course of months and others over the course of mere days. There may be multiple objects capable of creating these kinds of powerful radio signals, or they may have one singular explanation that could be applied to all of them. Astronomers will one day figure it out, but at the moment, all we can do is wait and wonder.
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