Scientists may have finally unlocked the unusual role quasiparticles known as "anyons" play in a pair of quantum experiments ...

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

Superconductivity and magnetism have long been treated as rivals in condensed matter physics, one thriving on perfect ...

Scientists from the Massachusetts Institute of Technology (MIT) in the U.S. have made a groundbreaking achievement after they captured the first images of individual atoms freely interacting in space.

For decades, physicists taught that superconductivity and magnetism could not share the same space. One state should destroy ...

The geometry or shape of a quantum system is mathematically expressed by a tool called the quantum geometric tensor (QGT). It also explains how a quantum system's state changes when we tweak certain ...

In the past year, two separate experiments in two different materials captured the same confounding scenario: the coexistence ...

MIT physicists have taken the first-ever direct images of individual atoms interacting freely in space. Their findings, published in the journal Physical Review Letters, reveal hidden quantum ...

Researchers have demonstrated for the first time self-induced superradiance in quantum particles, completely flipping what ...

CAMBRIDGE, MA – In the future, quantum computers could rapidly simulate new materials or help scientists develop faster machine-learning models, opening the door to many new possibilities. But these ...