B Black Holes: Can Anything Reduce Their Size?

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The discussion centers on whether anything can reduce the size of a black hole or accelerate its evaporation beyond the natural process of Hawking radiation, which is slow and dependent on the black hole's size. Current theoretical frameworks, primarily general relativity (GR), do not support any man-made methods for stimulating black hole evaporation. The idea of a stimulated evaporation process is considered more plausible than other speculative concepts, but still unlikely. Additionally, a black hole's gravitational influence remains consistent with the mass of the star from which it formed, posing no greater risk than a rogue star of equivalent mass. Ultimately, there is no known method to make a black hole "visible" during its evaporation, as it remains shrouded by its event horizon.
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I'm pretty sure I know the responses I'm going to get, as this question is pretty silly, but I'll ask anyway.

Is there anything - a process, or a material, that would reduce the size of a black hole and/or evaporate it away quickly, or is that just hocus pocus thinking?
 
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elusiveshame said:
Is there any other way that could happen by a man-made approach that would accelerate the evaporation?
I don't think that's a silly question at all! I suspect that the answer is no. But, the idea of some sort of stimulated evaporation is a lot more plausible than some of the really silly questions we get.

That said, currently black holes are governed theoretically by GR, with the QM effect of Hawking radiation being something of an anomaly. If and when we have a theory of quantum gravity, then the possibilities for how a black hole behaves may change.
 
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PeroK said:
I don't think that's a silly question at all! I suspect that the answer is no. But, the idea of some sort of stimulated evaporation is a lot more plausible than some of the really silly questions we get.

That said, currently black holes are governed theoretically by GR, with the QM effect of Hawking radiation being something of an anomaly. If and when we have a theory of quantum gravity, then the possibilities for how a black hole behaves may change.

Thanks for the answer. That's what I figured the likely answer would be: no

Would there be any benefit to speeding up that process (if it were possible and plausible to do so) aside from maybe preventing a head on collision with one, if one were detected to be heading towards us? When a BH evaporates, there's no point in which we'd be able to "see inside" of it because it'd still be shrouded by the event horizon, yeah? Or would it become "visible" once the mass reaches a certain level?
 
elusiveshame said:
Would there be any benefit to speeding up that process (if it were possible and plausible to do so) aside from maybe preventing a head on collision with one, if one were detected to be heading towards us? When a BH evaporates, there's no point in which we'd be able to "see inside" of it because it'd still be shrouded by the event horizon, yeah? Or would it become "visible" once the mass reaches a certain level?
A black hole is not a mass-eating monster! The gravity of the black hole is the same as the collapsed star from which it formed - as long as you remain beyond the original surface radius of the star. I.e. if the Sun became a black hole, this would not directly affect the Earth's orbit. It's only if you get within the original suface radius that the gravity is greater - and once you reach the event horizon, then there is no going back.

In that sense, a black hole would be no more dangerous than a rogue star of the same mass. And, the danger of a rogue star is extremely low risk.
 
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PeroK said:
A black hole is not a mass-eating monster! The gravity of the black hole is the same as the collapsed star from which it formed - as long as you remain beyond the original surface radius of the star. I.e. if the Sun became a black hole, this would not directly affect the Earth's orbit. It's only if you get within the original suface radius that the gravity is greater - and once you reach the event horizon, then there is no going back.

In that sense, a black hole would be no more dangerous than a rogue star of the same mass. And, the danger of a rogue star is extremely low risk.
D'oh. I feel like I knew this, too. Thanks for the reminder :)
 

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