When last we saw [xoreaxeax], he had built a lens-less optical microscope that deduced the structure of a sample by recording ...

The same phenomenon was later confirmed for neutrons, helium atoms, and even large molecules, making matter-wave diffraction ...

Scientists suggest superionic “hot black ice” deep inside Neptune may explain its tilted, offset and chaotic magnetic field, ...

Charge density waves are a central feature of many quantum materials and often coexist or compete with other electronic ...

Inside the cores of ice giant planets, the pressure and temperature are so extreme that the water residing there transitions ...

Can a small lump of metal be in a quantum state that extends over distant locations? A research team at the University of Vienna answers this question with a resounding yes. In the journal Nature, ...

According to quantum mechanics, ordinary matter, not just light, can exhibit wave properties. The wave nature of matter is described by a 'quantum superposition' state, where physical states like posi ...

When materials become just one atom thick, melting no longer follows the familiar rules. Instead of jumping straight from solid to liquid, an unusual in-between state emerges, where atomic positions ...

JWST observations of galaxy cluster MACS J1149 show gravitational lensing used by CANUCS to study distant low-mass galaxies across a wide range of cosmic time.

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

Electronic order in quantum materials often emerges not uniformly, but through subtle and complex patterns that vary from ...

There's something uniquely frustrating about the world of scientific discovery. We celebrate the names we know, the heroes ...