Black holes, these extreme cosmic entities, might well hold the missing clues to solve one of physics' greatest mysteries: the unification of general relativity and quantum mechanics. For over a ...

One team of researchers proposed such an inequality in 2019. While promising, their proposal is very difficult to test for quantum black holes in regimes where quantum effects are strong. In our work, ...

However, quantum physics and general relativity do have something in common; neither can explain what happens at the heart of black holes.

When they are included, scientists call the black holes “quantum black holes”. These have long provided a further mystery, as we don’t know how Penrose’s conjecture works in the quantum realm.

A giant quantum vortex has been created in superfluid helium in a lab at the University of Nottingham. Its behavior was found to mimic that of black holes and may help astrophysicists gain deeper ...

A team of researchers have significantly advanced our understanding of quantum black holes and their properties. Their new mathematical model provides evidence that when quantum matter is taken ...

Quantum tornado provides gateway to understanding black holes Date: March 20, 2024 Source: University of Nottingham Summary: Scientists have created a giant quantum vortex to mimic a black hole in ...

In fact, black holes are so influential that, when they rotate, they drag the very fabric of space along with them. In other words, near a black hole, nothing stands still. Nothing at all.

Physicists created a 'quantum vortex,' which flows with 500 times less viscosity than water and could be used to study the space-time warping caused by black holes. When you purchase through links ...

Black hole complementarity may force us to rethink what it means to say that it exists. Black holes clash in multiple ways with quantum mechanics. One such clash is the black hole information ...

However, quantum physics and general relativity do have something in common; neither can explain what happens at the heart of black holes.

Scientists have for the first time created a giant quantum vortex to mimic a black hole in superfluid helium that has allowed them to see in greater detail how analogue black holes behave and ...