This analysis presents the mathematical foundation and theoretical structure of wormholes, detailing how general relativity ...

Wormholes are a sci-fi staple, and and it's possible that they exist in the real universe. But how would they work? Physicists have now used a quantum processor to simulate a traversable wormhole ...

Although scientists have been mulling over the relationship between gravity and wormholes for around 100 years, it wasn’t until 2013 that entanglement (a quantum physics phenomenon), was thought ...

Simulating a wormhole has long been a goal in quantum physics. But current quantum computers don't have enough qubits to teleport particles.

Wormholes May Save Physics From Black Hole InfernosEvent horizons are important, however, for a number of reasons. Consider that according to the laws of quantum mechanics, a pair of virtual ...

Wormholes also crop up in quantum physics, which rules the world of atoms and particles. According to quantum mechanics, particles can pop out of empty space, only to disappear a moment later.

Wormholes are theoretical objects that could serve as portals between two points in space and time. Some believe they could even act as passageways to other universes.

Scientists have developed a quantum experiment that allows them to study the dynamics, or behavior, of a special kind of theoretical wormhole.

You cannot discover any new physics this way because you're not studying an actual wormhole. All you can do is explore what the existing equations can tell us about nature.

To make their model wormhole, physics professor Alvaro Sanchez and his team started with a 3.2-inch sphere of copper, yttrium, oxygen and carbon–a common alloy for commercial superconductors.