A recent study in Physical Review Letters explores quantum effects on black hole thermodynamics and geometry, focusing on extending two classical inequalities into the quantum regime. Black holes ...

In 1965, British mathematician Roger Penrose proposed the cosmic censorship conjecture, a concept that suggests that singularities — regions where gravity is so strong that the fabric of ...

However, while Penrose’s description of black hole singularities is widely respected and accepted among physicists, until now, there has been no mathematical evidence to prove the cosmic censorship ...

Black holes are the most extreme objects in the universe. These hyper-dense celestial phenomena exert gravitational forces so powerful that not even light can escape their pull, and time itself is ...

Finally, a study reveals a new model that provides a solid mathematical basis for the hidden nature of singularities in quantum black holes. The study authors suggest that their findings could ...

We explore the discovery of a wormhole. According to El Pais, scientists have on numerous occasions theoretically demonstrated that this shortcut can be generated by creating two entangled black holes ...

Peculiar James Webb Space Telescope observations seem to show gargantuan black holes in the earliest moments of the universe. New research may explain how they formed, thanks to primordial "seeds".

Vertical video - glowing neon colored blue pink stars in space background. Flying through a galaxy of stars and particles at super fast hyperspace warp speed. Looping, full HD cosmic motion background ...

AI-generated representation of an accreting supermassive black hole, surrounded by gas spiraling toward it along the equatorial plane (the accretion disk) and emitting powerful winds of matter as it ...

Core package to analyze gravitational-wave data, find signals, and study their parameters. This package was used in the first direct detection of gravitational waves (GW150914), and is used in the ...