- #1
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- TL;DR Summary
- A simple calculation suggests there should be many black holes relatively nearby. Why don't we detect them?
Where should the nearest black hole be?
Something like 0.1% of stars end up as BH's, so that suggests about 100 million in the Milky Way. The easiest thing to do, instead of a complicated geometry problem, is to recognize that the cube root of 0.1% is 0.1, so that we expect BH's to have separations roughly 10x that of stars.
That, in turn, suggests that there should be one around 50 ly from us. However, the nearest identified one is more like 1500 ly. This implies a density 25,000-30,000 times lower. Now, one can say "maybe we just don't see them", but we should see the ones in binary systems due to the gravitational pull on the companion star, and indeed, this is how the nearest (and 2nd nearest) ones were discovered.
This also suggests that 99.9+% do not have accretion disks sufficient to make them bright x-ray sources.
So where are they?
Something like 0.1% of stars end up as BH's, so that suggests about 100 million in the Milky Way. The easiest thing to do, instead of a complicated geometry problem, is to recognize that the cube root of 0.1% is 0.1, so that we expect BH's to have separations roughly 10x that of stars.
That, in turn, suggests that there should be one around 50 ly from us. However, the nearest identified one is more like 1500 ly. This implies a density 25,000-30,000 times lower. Now, one can say "maybe we just don't see them", but we should see the ones in binary systems due to the gravitational pull on the companion star, and indeed, this is how the nearest (and 2nd nearest) ones were discovered.
This also suggests that 99.9+% do not have accretion disks sufficient to make them bright x-ray sources.
So where are they?