Some more information about this:

The burst was so bright it effectively blinded most gamma-ray instruments in space, which means they could not directly record the real intensity of the emission. U.S. scientists were able to reconstruct this information from the Fermi Telescope data. They then compared the results with those from the Russian team working on Konus data and Chinese teams analyzing observations from the GECAM-C detector on their SATech-01 satellite and instruments on their Insight-HXMT observatory. Together, they prove the burst was 70 times brighter than any yet seen.

What's the explanation for this? Closer than usual? New phenomenon?

I've seen one article attributing it to the formation of a new black hole but I'm not sure how certain that interpretation is at this point.

Might have been a larger than normal GRB and/or it was pointed directly at us by sheer luck.

It IS one of the closest-and energetic Gamma Ray burst and most common cause of GRBs is formation of a new black hole. And one of the jet was exceptionally narrow and pointed directly at us, so that’s why it was brighter than usual.

Science unites us all. We are all in this small boat called Earth, together.

Did you mean directly or /directly/

That's just how many GRBs happen. There are certain kinds of stellar deaths which result in the collapse of an extremely massive star into a black hole. As a considerable chunk of the rest of the star gets swallowed by the black hole it forms into an accretion disk and the rotation creates high energy axial jets. The axial jets contain super energetic material being propelled at close to the speed of light, this creates a relativistic effect which substantially increases the brightness of the emitted energy near the axis of the beam. Many of these events occur throughout the universe routinely, projecting intense gamma ray beams across billions of lightyears. When Earth happens to be in one of these beams we detect a gamma ray burst.

This particular event wasn't inherently exceptionally bright, nor exceptionally close (it was about 1.9 billion lightyears away), but we were basically directly in the brightest part of the beam, which is very narrow.

Are we taking levels that would have been dangerous for people in or beyond orbit?

Or do we really only have to worry about radiation from our own star?

will this cause the neutrino detectors to see an increase?

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Alexa, what is statistical analysis?

If it was directly, we'd all be dead.

I was thinking this last night when I first saw the news story, we've only been looking for the last few decades, how are we able to determine the gap between these huge events?

He has a point though. If you detect an event your models say is “once in 10k years” in the first few decades you’re even looking, odds are they’re more frequent than your models suggest. Obviously, it’s only one data point, but I wouldn’t be surprised if they wind up being more common than predicted.

Well let me know in 10,000 years how many there were.

Er…no, not really.

This was about 1.9 billion light years from Earth. The closest GRB ever observed was about 130 million light years from Earth. For a GRB to pose any sort of threat to life on Earth, it would need to be about 8,000 light years from Earth, and even at that range, we wouldn’t “all be dead” (though there’d be a significant increase in things like cancer rates for the next decade or two due to atmospheric damage).

Read 'Supernova Era' if anyone wants to read a sci-fi book about this.

Thanks for this recommendation! Definitely going to check this book out!

1 in 10,000 year GRB seems like a stretch, we've only been able to detect them for a few decades.

I read that as strange to then for some reason just trusted it. Maybe they can detect grbs in rocks or something?

Does that mean we have this increase risk of cancer now even though it was far away ?

No. It needs to be about 8,000 light years away (or less) to start affecting the atmosphere. It would be that damage that would increase cancer risk.

Think if the ozone layer hole kept expanding globally, instead of shrinking like it’s doing now.

do we see them happen when they aren't pointed somewhat at us? like, if there is nothing for the light to reflect off of we won't see the light right? like in the case of one pointed perpendicular to us, for example

We won't see them as gamma ray bursts but we might see them as supernova (or hypernova) events, but only much closer.