Scientists have uncovered an unexpected breakdown of nuclear order in a remarkably symmetric atom, challenging long-standing ideas about where such effects can occur.

New research puts forward compelling new evidence that dark matter interacts with cosmic "ghost particles" called neutrinos.

Mohammad Hafezi, a Joint Quantum Institute Fellow, and his colleagues investigated how changing the ratio of fermionic to ...

A team of physicists has coaxed a single, photon-like particle into behaving as if it lives in 37 different quantum ...

An analysis of several experiments aimed at detecting the mysterious neutrino has identified a hint of a crack in the ...

A team of quantum physicists has taken a concept that once lived purely in equations and turned it into hardware reality, ...

The Large Hadron Collider will be shut down, paving the way for a major upgrade, and perhaps its eventual, even bigger ...

New results from the MicroBooNE experiment rule out the existence of a sterile neutrino, reshaping how scientists think about ...

Quantum particles have a social life, of a sort. They interact and form relationships with each other, and one of the most ...

Quantum mechanics is weird. When you think you have reached the bottom of its weirdness, you always discover a new ...

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

Physicists in China have brought one of Einstein’s thought experiments into reality—but not quite with the outcome he hoped ...