Quantum physics overturned classical ideas by showing that matter behaves very differently at the ...

Researchers from the University of Vienna and the University of Duisburg-Essen showed that metallic ...

The new research demonstrates for the first time that the wave nature of matter persists even at large scales, using massive ...

One of the discoveries that fundamentally distinguished the emerging field of quantum physics from classical physics was the ...

“Positronium is the simplest atom composed of equal-mass constituents, and until it self-annihilates, it behaves as a neutral ...

Experiments reveal that metallic nanoparticles thousands of atoms wide can exist in quantum superposition, providing a ...

Extremely cold atoms have been nudged to self-magnify their quantum states so they can be imaged in unprecedented detail. This could help researchers better understand what quantum particles do in odd ...

Since its development 100 years ago, quantum mechanics has revolutionized our understanding of nature, revealing a bizarre world in which an object can act like both waves and particles, and behave ...

A new unified theory connects two fundamental domains of modern quantum physics: It joins two opposite views of how a single ...

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 ...

A quiet revolution is taking shape in the world of physics, and it doesn’t rely on exotic particles or massive particle colliders. Instead, it begins with something much more familiar—sound.

A new study, co-led by Rice University’s Qimiao Si, brings these two together and discovered a new quantum state of matter.