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Scientists Prove Half-Century-Old Theory on Use of Black Holes as Energy Sources

© ESO/L. Calçadaartist impression of the surroundings of a supermassive black hole
artist impression of the surroundings of a supermassive black hole - Sputnik International
The researchers say their study hasn’t brought humanity any closer to extracting energy from black holes, but noted that future generations could build a structure that may produce limitless energy using them.

An international team of scientists has found an answer to a question that has troubled scientists for more than half a century – can a rotating black hole be used as a source of energy? According to a study, which was recently published in the journal Nature Physics, the answer is yes.

In 1969, British mathematical physicist Roger Penrose proposed a method known as the Penrose process, detailing how energy can be extracted from rotating black holes, which pull the surrounding space and time. Penrose suggested that if an object or light were to fall into a rotating black hole’s ergosphere, it would be split into two parts – one that would be sucked into it and another that would escape. When fleeing, it would gain energy from the black hole's rotation. Thus, by sending objects or light towards a rotating black hole, one could get energy back, Penrose suggested.

In 1971, two years after Penrose came up with his hypothesis, Soviet physicist Yakov Zeldovich suggested a potential method to test it. Zeldovich proposed to substitute a rotating black hole with a cylinder made from a material that can absorb energy. The scientist believed that light waves would be amplified by the cylinder and extract energy. However, in order to become amplified, the light waves would need to be twisted into spirals.

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The idea was that the frequency of twisted light waves would change after they hit the cylinder as a result of the Doppler effect, the change in a wave's frequency in relation to an observer who is moving towards the source of the wave. Most of us have experienced this on the street when hearing a police or ambulance siren – when the vehicle moves towards us, the siren has a higher pitch than when it moves away from us.

Zeldovich assumed that if a cylinder rotates rapidly enough, then the altered wave frequency would become so low that it would become negative. Positive frequency waves would be absorbed by the cylinder, losing energy. At the same time, negative frequency waves would transform this loss and become amplified by the cylinder and extract energy from its rotation, just like in the Penrose process.

Although Zeldovich came up with a good way to test his colleague’s hypothesis, it nevertheless had a big flaw – the speed at which cylinder has to move in order to amplify light waves needs to be so tremendous that it is mechanically impossible.

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This is where scientists from the University of Glasgow and the University of Arizona stepped in. Instead of using light waves, they decided to use sound waves, which travel "roughly a million times slower", meaning that the cylinder doesn’t have to rotate as fast.

"To create a twisted sound wave, we used a ring of speakers all emitting the same frequency but starting at slightly different times, so the sound follows a spiral. For our rotating absorber we used a piece of sound-absorbing foam attached to a motor. Microphones placed inside the foam allowed us to record the sound after it had interacted with the rotating absorber. We found that when the foam span slowly (at a low frequency), the sound we recorded was quieter because it had been absorbed by the foam. But when we spun the foam fast enough for it to Doppler shift the frequency of the sound waves enough to make them negative, the sound became louder", wrote Daniele Faccio and Marion Comb from the University of Glasgow.

The researchers say the fact that they confirmed Penrose’s theory doesn’t bring humanity any closer to extracting energy from rotating black holes. At the same time, they say that it doesn’t mean that future generations won’t be able to build some sort of structure around rotating black holes that could produce unlimited energy.

"They could build a so-called black hole bomb by completely surrounding the black hole with a reflecting mirror shell. Light shone into the black hole would return amplified, and then reflected back by the mirror to the black hole to be amplified again, and so on. The energy would increase exponentially in a back-and-forth runaway explosion. But by letting some of this amplified light out of the shell through a hole, you could control the process and produce essentially limitless energy", wrote Daniele Faccio and Marion Comb.
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