Scientists often conduct experiments and simulations to test different theories. In one of the latest simulations, an event horizon was created around black holes, the boundary where even light cannot escape gravity. After a while the black hole started to shine was seen.

In the chain of atoms arranged in a single row, a phenomenon called Hawking radiation was observed due to quantum fluctuations. With Hawking radiation New particles are created as a result of the black hole’s effect on the space-time fabric. According to the researchers, their simulation and glowing black hole will help understand quantum physics and general relativity together.

We are closer to understanding the secrets of the universe

Under normal circumstances we cannot detect Hawking radiation. from the University of Amsterdam Lotte Mertens His research allows us to observe this situation with a different approach. Basically an atom with a fixed mass do not rotate around their coreElectrons, which disappear and return, make jumps on the atomic chain in the simulation. Researchers could also examine the jumps as a kind of fluctuation.

this too Hawking radiation It can help understand the role of particle entanglement in its formation. It could thus make it possible to understand the connection between quantum physics and general relativity. Yet this work opens up a broad field of research into quantum gravity.

Research Physical review research’It was published in.