Nuclear theorists demonstrate a new method for computing the strengths of subatomic interactions that include up to three particles.
Scientists find strong evidence for the long-predicted Breit-Wheeler effect—generating matter and antimatter from collisions of real photons.
First observation of embedded magnetic islands paves way for improved fusion reactor designs.
Chromium defects in silicon carbide may provide a new platform for quantum information
Nuclear scientists devise an indirect method of measuring the speed of sound in matter created in heavy-ion collisions.
Electromagnetic waves are used to internally identify turbulent magnetic fluctuations in 100-million-degree fusion plasmas.
An enzyme system frees sulfur from small organic compounds to make a surprising gaseous side product.
State-of-the-art X-ray techniques found hidden damage in neutron irradiated silicon carbide, a possible structural material for future fusion reactors.
A team using the nation’s fastest supercomputer to look at protein binding finds that some binding processes are simpler than expected.
Using cold temperatures and machine learning, researchers visualized individual molecules in a synthetic soft material for the first time.
The tropical Madden-Julian Oscillation (MJO) rainfall pattern brings change to non-tropical parts of the United States.
Interactions of quantum “quasiparticles” demonstrate unusual fluid flow.
