Step inside the strange world of a superfluid, a liquid that can flow endlessly without friction, defying the common-sense ...

Just after 4:25 p.m. on Saturday, Dr. Stephanie Lueckel, a trauma attending surgeon, received a text from a close friend who ...

Theoretical breakthrough shows that time’s arrow can emerge naturally from how quantum parts become interconnected.

Using ultracold atoms and laser light, researchers recreated the behavior of a Josephson junction—an essential component of ...

The fundamental nature of living things challenges assumptions that physicists have held for centuries.

Scientists were able to manipulate a calcium monohydride molecular ion — made up of one atom of hydrogen and one atom of ...

Knots are everywhere—from tangled headphones to DNA strands packed inside viruses—but how an isolated filament can knot ...

A team at UNIGE has uncovered a geometric structure once thought to be purely theoretical at the core of quantum materials, opening the door to major advances in future electronics. How can ...

Rapid advances in the kind of problems that quantum computers can tackle suggest that they are closer than ever to becoming ...

Frederik Møller, Philipp Schüttelkopf and Jörg Schmiedmayer in their laboratory at TU Wien. (Courtesy: TU Wien) Atoms in a one-dimensional quantum gas behave like a Newton’s cradle toy, transferring ...

While the dangers of secondhand smoke are widely recognized, a new study reveals a more persistent and stealthier hazard hiding in our indoor spaces: "Thirdhand Smoke." This residue, which lingers on ...