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Two black holes merged to form a huge one moving at incredible speeds

Astronomers have long suspected that merging black holes can give the resulting larger black hole a massive boost of speed, and have finally spotted this happening

When a pair of black holes merge, the resulting larger black hole can be sent hurtling away at extraordinary speeds 鈥 and now astronomers have seen it happen.

at the Max Planck Institute for Gravitational Physics in Germany and his colleagues found this fast-moving black hole by taking a second look at data from the Laser Interferometer Gravitational-Wave Observatory (LIGO) in the US and its corresponding observatory in Italy, called Virgo. These observatories measure gravitational waves, ripples in space-time caused by the motions of massive objects.

The signal that Varma and his colleagues studied is designated GW200129. It came from two black holes orbiting one another that spiralled inwards and smashed together, resulting in a single, larger black hole. They found that, before the merger, the black holes were spinning, and their spin axes weren鈥檛 aligned with one another or the axis running through the point in space around which they orbited.

This gives us a hint as to where the original black holes may have formed. 鈥淚solated systems tend to give you aligned spins, according to models,鈥 says at the University of Mississippi, who wasn鈥檛 involved in this research. 鈥淲hen we see these misaligned spins, that鈥檚 a hint that this binary may have formed in a more crowded environment like a globular cluster鈥 鈥 a dense clump of old stars.

That misalignment is also a deciding factor behind what happens to the final black hole. When such black holes merge, the momentum held by the spin has to go somewhere, and it ends up being split between the gravitational waves emitted in the collision and the final black hole.

The final merger can be compared to the firing of a cannon, says at the University of Milano-Bicocca in Italy. 鈥淲hen the cannonball flies, the cannon recoils in the opposite direction,鈥 he says. 鈥淲hen the black holes emit gravitational waves, those carry some linear momentum 鈥 the gravitational waves are the cannonball and the black hole that is left behind is the cannon.鈥

Researchers have calculated that this 鈥渒ick鈥 effect should be able to give black holes speeds of hundreds of kilometres per second, but this is the first observational evidence. Varma and his colleagues calculated that the final object鈥檚 speed was at least about 700 kilometres per second and probably closer to 1500 kilometres per second, which may be fast enough to propel it out of its home galaxy.

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This evidence that black holes can recoil after mergers is important, because removing a black hole from the crowded environment where it was born means that it won鈥檛 be around to participate in more mergers. This makes it difficult to explain some of the larger black holes LIGO has spotted, which we would expect to result from a series of mergers in a row.

It also means that the cosmos is full of black holes zooming around at extreme speeds, but that shouldn鈥檛 be a cause for concern for us. 鈥淪pace is so extraordinarily vast that there is basically no chance that on Earth we鈥檒l encounter anything like this,鈥 says Varma. 鈥淭his one is happening billions of light years away, so even if it was pointed directly at Earth, we wouldn鈥檛 have to start worrying about it any time soon. But it鈥檚 pointed away from Earth.鈥

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Topics: Black holes / Gravitational waves