A new study could influence how scientists design diamond-based quantum technologies, including ultra-precise sensors and ...

Olalla, from the Department of Condensed Matter Physics at the University of Seville, has described the direct link between ...

A joint effort between two of the world’s largest neutrino experiments has brought scientists closer to understanding how the ...

Three thought experiments involving “demons” have haunted physics for centuries. What should we make of them today?

Knotted structures once imagined by Lord Kelvin may actually have shaped the universe’s earliest moments, according to new ...

New characterization of the material's surface reveals how an atom-level rearrangement aids the formation of ice crystals and promotes precipitation ...

Despite soaring progress, scientists at AI’s largest gathering say key questions about how models work and how to measure ...

Discover how Ramanujan's century-old pi formulas connect to modern cosmology and turbulent fluid physics in groundbreaking ...

From a particle smasher encircling the moon to an “impossible” laser, five scientists reveal the experiments they would run ...

Diamond is famous in material science for being the best natural heat conductor on Earth—but new research reveals that, at ...

Neutrinos are low-mass subatomic particles with zero electric charge that interact with matter only via the weak nuclear force and gravity. This makes neutrinos difficult to detect, despite the fact ...

A detailed suite of simulations conducted by astrophysicists at the Flatiron Institute and their collaborators showed that magnetic fields can produce black holes with masses that were previously ...