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The brightest gamma-ray burst in human history was recently detected, scientists with the American Astronomical Society (AAS) announced Tuesday.

Nicknamed the BOAT, for the Brightest of All Time, it temporarily blinded Earth’s satellites, NASA said in a press release.

The burst was initially detected on Oct. 8th, 2022, by Voyager 1.

According to a paper published in The Astrophysical Journal Letters, the gamma-ray swept through our solar system 19 hours after it was initially detected. NASA said the burst was so bright that satellites were unable to “directly record the real intensity of the emission.”

Scientists used data collected by the Fermi Gamma-ray Space Telescope to study the burst. Eric Burns with Louisiana State University said in the paper that gamma-ray bursts this bright pass Earth “roughly every 10,000 years.”

Gamma-ray bursts, which are high-energy explosions, are considered to be the most energetic and brightest electromagnetic events in the known universe.

Where did the gamma-ray burst come from?

According to NASA, the burst of energy traveled about 1.9 billion years. The burst, named GRB 221009A, was spotted in the Sagitta constellation.

Gamma-ray bursts are created when a star dies and black holes are born, scientists with NASA believe. “As it quickly ingests the surrounding matter, the black hole blasts out jets in opposite directions containing particles accelerated to near the speed of light,” NASA said in a statement.

X-rays from the initial flash of GRB 221009A could be detected for weeks as dust in our galaxy scattered the light back to us. This resulted in the appearance of an extraordinary set of expanding rings. (Credit: NASA/Swift/A. Beardmore; University of Leicester)

The space agency said it expected a supernova to occur a few weeks later, but have yet to spot one. They believe that this is because the burst originated in a part of the sky that is obscured by our own galaxy’s dust.

X-rays released at the same time as the GRB passed through dust clouds in our own galaxy. When these rays reflected off of the dust, they created “light echoes” of the initial blast. These echoes helped scientists determine the location of dust in our galaxy as well as reconstruct details of the initial gamma-ray burst.

NASA said that GRB 221009A is only the seventh gamma-ray burst we’ve detected that creates these x-ray rings. The echoes came from dust located between 700 and 61,000 light-years away.

The AAS meeting took place this week in Waikoloa, Hawaii.