When quantum particles work together, they can produce signals far stronger than any one particle could generate alone. This ...

Long considered a serious technical challenge, superradiance could actually help quantum devices go even further.

Quantum particles can work together to produce powerful signals. However, those signals are unstable and usually vanish ...

Quantum physicists have found a way to make clouds of atomic-scale spins act like a single, disciplined antenna, generating microwave signals that are both powerful and remarkably long lived. Instead ...

Dark matter is an elusive type of matter that does not emit, absorb or reflect light, interacting very weakly with ordinary ...

Quantum satellites currently beam entangled particles of light from space down to different ground stations for ultra-secure communications. New research shows it is also possible to send these ...

QTSP, which is at the core of ranking algorithms, processes higher-order data. This data is represented as graphs and transformed into other graphs. This is usually taxing for classical computers, but ...

A team of researchers at the University of Tennessee at Chattanooga, along with those at the Oak Ridge National Laboratory (ORNL) and utility company EPB, have successfully developed and tested the ...

Researchers unveil a quantum measurement protocol that tracks the velocity and direction of wave-like dark matter particles.

Quantum Computing (QUBT) stock has surged over 170% in just the first three trading sessions of 2025. The company is benefiting from the growing investor interest in the fast-emerging quantum ...