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In a distant galaxy, a supermassive black hole spewing radiation at near light speed has shifted its angle by a whopping 90 degrees to point directly toward Earth — a sharp turn that’s puzzling physicists.

Active galactic nuclei (AGN) are the hungry black holes at the cores of many other galaxies, and they accrete matter and spew powerful jets of high-energy particles known as relativistic jets. AGN are classified according to what part of the AGN is pointed toward Earth.

PBC J2333.9-2343, a large galaxy about 4 million light-years away, was previously classified as a radio galaxy, meaning its AGN’s gargantuan jets of radiation were pointed perpendicular to our line of sight. But new research published March 20 in the journal Monthly Notices of the Royal Astronomical Society (opens in new tab) reclassifies the galaxy as a blazar, meaning the black hole’s jets are now pointed directly at Earth. This means the galaxy’s jets shifted by a “dramatic” degree, the researchers wrote in the study.

“Our hypothesis was that the relativistic jet of its supermassive black hole had changed its direction, and to confirm that idea we had to carry out a lot of observations,” lead study author Lorena Hernández-García (opens in new tab) , an astrophysicist at the Millennium Institute of Astrophysics, said in a statement (opens in new tab) .

Related: What’s the biggest black hole in the universe?

The galaxy PBC J2333.9-2343 is the bright spot at the center of this image, taken by the Institute for Astronomy at the University of Hawaii’s Pan-STARRS survey.  (Image credit: Institute for Astronomy at the University of Hawaii)

Hernández-García and colleagues observed PBC J2333.9-2343 across nearly the entire electromagnetic spectrum, from radio waves to gamma-rays. Their observations showed that this galaxy had characteristics typical of blazars: It brightened and dimmed like a blazar, and it had similar jets. Thus, they concluded that the object was most likely a blazar.Related stories—Black holes may be swallowing invisible matter that slows the movement of stars

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The researchers also observed two lobes — areas where an AGN’s jets interact with surrounding gas — where some jets had previously made their mark. This blazar’s lobes are “very old,” however, Hernández-García said, adding that “they are the relics of past activity, whereas the structures located closer to the nucleus represent younger and active jets.”

These dormant lobes are evidence that the jets have, in fact, changed direction. It’s not totally unprecedented for a galaxy’s jets to appear in different places. But in prior examples, there were two sets of lobes, meaning two separate jets turning on and off. For PBC J2333.9-2343, it appears that there is only one source of activity, and it has changed tack.

What caused this great shift? Astronomers are still working that out. Current theories include a galaxy merger, where another large galaxy collided with PBC J2333.9-2343, jostling the orientation of everything within it. More observations are needed to figure out this mystery.

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