Atoms never stay still. Even in their lowest energy state, they vibrate due to quantum effects. Now, for the first time, ...

Scientists have a new way to use data from high-energy particle smashups to peer inside protons. Their approach uses quantum information science to map out how particle tracks streaming from ...

A pioneering team at the University of Maryland has captured the first-ever images of atomic thermal vibrations, unlocking an ...

Exploring the BTZ black hole in (2+1)-dimensional gravity took me down a fascinating rabbit hole, connecting ideas I never ...

Researchers investigating atomic-scale phenomena impacting next-generation electronic and quantum devices have captured the first microscopy images of atomic thermal vibrations, revealing a new type ...

A particle’s state spreads out like a wave, peaking where the particle is likely to be found. When you measure its position, this spread-out state, known as a wave function, transforms into a single ...

Karnataka is poised to host Nobel laureates Duncan Haldane and David Gross for a dialogue leading up to the inaugural Quantum ...

Quantum technology is big science. Just as a fusion reactor or particle accelerator cannot be built without a large, well-resourced, future-focused team, neither can a quantum computer or network.

Their approach uses quantum information science to map out how particle tracks streaming from electron-proton collisions are influenced by quantum entanglement inside the proton.