Scientists demonstrate that quantum networks of clocks offer a new way to explore the interplay between quantum mechanics and curved space-time. Quantum networking is advancing rapidly across the ...

Instead of the big bang, some physicists have suggested that our universe may have come from a big bounce following another ...

The nodes in a quantum network don’t necessarily have to be computers; they can also be atomic clocks. The cesium atoms that ...

What exactly is gravity, and how does it work? From Newton’s early groundbreaking discoveries to Einstein’s revolutionary ...

Orthodox quantum mechanics is empirically flawless, but founded on an awkward interface between quantum systems and classical ...

Black holes, these extreme cosmic entities, might well hold the missing clues to solve one of physics' greatest mysteries: ...

T-symmetry offers insights into the nature of time, revealing how fundamental physical laws remain invariant under time ...

Imagine dropping your phone into a campfire and later finding only a pile of ash. No serial number, no photos, no clue the ...

Integration of Loop Quantum Gravity with quantum field theory. Studies matter-geometry coupling, polymer field interactions, and quantum gravitational effects on field dynamics.

While the electromagnetic, weak, and strong forces are described by the Standard Model of particle physics, gravity remains an outlier—resisting efforts to be fully explained by quantum theory.

While the mechanical qubit could hold and manipulate quantum information, the system’s fidelity — a measure of how accurately it performs quantum operations — was recorded as just 60%.