They have discovered that uranium nuclei are far from the simple, elongated shapes we once thought. The new research shows ...

The actual connection between physics and molecular biology is that curvature and torsion are the most probable solutions ...

An elusive particle that first formed in the hot, dense maelstrom of the early universe has puzzled physicists for decades.

A new study challenges traditional spin-statistics assumptions in ion-atom charge exchanges, revealing unexpected dynamics in C3+ and helium collisions and opening new avenues in quantum reactivity.

So-called “XYZ states” defy the standard picture of particle behavior and have given rise to several attempts to understand ...

The kilonova briefly mimicked the conditions immediately following the Big Bang, and allowed scientists to confirm the source ...

Where does the periodic table of chemical elements end and which processes lead to the existence of heavy elements? Researchers report on experiments to come closer to an answer. They gained insight ...

Based on an experiment at CERN, a collaboration led by the Niels Bohr Institute, University of Copenhagen, can predict hitherto unchartered changes in the shape of nuclei.

The paper is called Two-, Three-, and Four-Atom Exchange Effects in bcc 3 He and studies helium-3 which becomes a superfluid ...

If you don’t know the story, enjoy! If you do, haven’t you ever wondered what the famous feline’s work involved?

Supersolid states of matter have been predicted for decades, but were only recently synthesized in the lab. In this state, produced by manipulating quantum gases, matter acts as a solid but also ...