Particles of light can spend "negative time" passing through a cloud of extremely cold atoms – without breaking the laws of ...

By influencing the nucleus of a titanium atom, they have created new opportunities for storing quantum information.

A recent breakthrough has paved the way for timekeeping even more precise than the measurements performed by atomic clocks.

One of the most surprising predictions of physics is entanglement, a phenomenon where objects can be some distance apart but ...

Deep inside what we perceive as solid matter, the landscape is anything but stationary. The interior of the building blocks of the atom's nucleus -- particles called hadrons that most of us would ...

New faculty member Huanqian Loh brings a new quantum computing approach to the expanding expertise of the Duke Quantum Center ...

Copernicus pitched the heliocentric idea that the Earth orbited the sun. His theory took 150 years to catch on and more than ...

Deep inside what we perceive as solid matter, the landscape is anything but stationary. The interior of the building blocks ...

Known as antihyperhydrogen-4, this strange stuff could help us solve some of the most puzzling physics mysteries. Antimatter is basically just regular matter that has the opposite charge.

Researchers have discovered a new method to store and retrieve quantum data using the spin state of an atom's nucleus. They ...

Entanglement, previously seen in photons, has been observed in top quarks at the Large Hadron Collider in a first, marking a new high-energy milestone.

By using lasers to cool positronium atoms to nearly absolute zero, scientists have advanced our understanding of antimatter, ...