One way of creating a time crystal is to knock some of the carbon atoms out of the crystal lattice of diamond, creating what ...

In theory, a quantum computer could perform calculations vastly more quickly than today’s conventional computers.

Quantum computers have the potential to solve complex problems that would be impossible for the most powerful classical ...

Our bodies are always moving, even when we don’t realize it. We churn through a solar system on a wobbly planet, stand upon ...

A new study has achieved unprecedented precision in detecting tiny shifts in light displacements at the nanoscale. This is relevant for example in the characterisation of birefringent materials and in ...

The ability to conduct heat is one of the most fundamental properties of matter, crucial for engineering applications. Scientists know well how conventional materials, such as metals and insulators, ...

Quantum computers have the potential to solve complex problems that would be impossible for the most powerful classical ...

Cadmium-based nanostructures are opening new possibilities in near-infrared (NIR) technology, from medical imaging to fiber ...

In a new development at CERN, researchers at the LHCb collaboration have determined the spin-parity of singly heavy charm ...

A study, led by the University of Portsmouth, has achieved unprecedented precision in detecting tiny shifts in light ...

Could reality itself be information-based? Explore how scientists use functional information to unlock mysteries across ...

Quantum technologies operate by leveraging various quantum mechanical effects, including entanglement. Entanglement occurs ...