The mechanism that stabilizes new ferroelectric semiconductors also creates a conductive pathway, which could make them ...

Light's interference patterns may emerge from quantum particles, not waves, challenging traditional wave-particle thinking.

We have a responsibility to ensure that our discoveries are used in the public interest. That isn’t always easy.

The way time is measured is on the edge of a historic upgrade. At the heart of this change is a new kind of atomic clock that ...

Recently, a group of researchers discovered a novel way to achieve spin-valve effects using kagome quantum magnets.

According to a study published in Nature Physics, a TU Darmstadt-led research team at the GSI Helmholtz Centre for Heavy Ion ...

Atomic-scale imaging reveals that chalcogen atoms play a crucial role in Cooper pairing in Fe-based superconductors, offering ...

Explore how the University of Illinois Chicago's Physics PhD programme and research excellence drive innovation and inspire global impact in science education.

Many atomic nuclei have a magnetic field similar to that of Earth. However, directly at the surface of a heavy nucleus such ...

The achievement represents a major step forward, potentially unlocking innovations across numerous fields that rely on ...

In a compelling juxtaposition of disciplines, a new exhibition brings together the seemingly disparate worlds of quantum ...

A revolutionary solar material has hit 93.5% efficiency—rewriting the rules of solar power and challenging the dominance of ...