杏吧原创

Black holes may harbour their own universes

Matter swallowed by a black hole may fall into an apparently infinite universe, a new study suggests
Black holes may contain whole universes inside them, according to a theory called loop quantum gravity (Illustration: XMM-Newton/ESA/NASA)
Black holes may contain whole universes inside them, according to a theory called loop quantum gravity (Illustration: XMM-Newton/ESA/NASA)

When matter gets swallowed by a black hole, it could fall into another universe contained inside the black hole, or get trapped inside a wormhole-like connection to a second black hole, a new study suggests.

What鈥檚 inside a black hole is one of the biggest mysteries in physics. The theory that predicted black holes in the first place 鈥 general relativity 鈥 says that all the matter inside them gets squashed into a central point of infinite density called a singularity. But then, 鈥渢hings break down mathematically鈥, says Christian B枚hmer of University College London, in the UK. 鈥淲e would like to see the singularity removed.鈥

Many researchers believe that some kind of new, overarching theory that unites gravity and quantum effects will resolve the problem. String theory is the most popular of these alternatives.

But B枚hmer and colleague Kevin Vandersloot of the University of Portsmouth in the UK use a rival approach called loop quantum gravity, which defines space-time as a network of abstract links that connect tiny chunks of space.

Loop quantum gravity has been used before to tackle the singularity that would seem to have occurred at the origin of our universe. It suggests that instead of a big bang, an earlier universe could have collapsed and then exploded outward again in a 鈥big bounce鈥.

Bizarre solutions

A similar repulsiveness appeared when the loop quantum approach was previously applied to the inside of a black hole with particular properties. Those studies suggested there was a repulsive boundary that blocked matter from clumping together in the singularity.

But B枚hmer and Vandersloot wanted to see what happened if they applied loop quantum gravity to black holes in general. Because loop quantum gravity equations cannot be solved exactly for the inside of every black hole, the researchers used computers to approximate what would happen to the infalling matter.

鈥淲e were very surprised about the results,鈥 B枚hmer says. Instead of a boundary around the singularity, they got two other kinds of solutions 鈥 both bizarre 鈥 that replaced the singularity.

B枚hmer realised that one set of answers looked like a so-called 鈥楴ariai universe鈥 鈥 a mathematical model of a universe allowed by general relativity in which the universe expands in only one spatial direction. (Our observed universe appears to be a 鈥渄e Sitter space鈥 instead because it expands in all three dimensions, so that distant galaxies move away from us no matter where we look in the sky.)

Infinite universe

鈥淭he interior becomes a universe of its own,鈥 B枚hmer says. Instead of matter falling into a singularity, it would travel forever through this Nariai universe, which it would experience as infinite in size 鈥 even though it fits inside a black hole of finite size.

The other set of solutions they came up with were for a tunnel-like connection between the mouths of two black holes. The tunnel is reminiscent of a wormhole, a hypothetical feature of space-time that connects two distance points via a shortcut. In this case, it鈥檚 not clear yet what would happen to matter inside, but it could oscillate back and forth inside of the two-mouthed black hole.

The new study is a 鈥渟ignificant step forward,鈥 says Carlo Rovelli of the Centre for Theoretical Physics in Marseille, France.

Inherently unstable

鈥淭he idea of applying loop quantum gravity to resolve the singularity at the centre of a black hole was started some time ago,鈥 he told New 杏吧原创. 鈥淏ut it is now reaching a stage of maturity, where one can indeed compute concretely how quantum space-time in the centre of a black hole could actually look.鈥

But one physicist contacted by New 杏吧原创 who did not want to be quoted by name says the new work may not actually do away with the problem of singularities in black holes. He says a Nariai universe is inherently unstable, so it would eventually either collapse or become a de Sitter universe 鈥 which would itself harbour black holes.

If that is so, then black holes may contain their own universes, but those universes would likely contain their own black holes, which could contain their own universes 聟 in an infinite loop.

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