A spike in temperatures highlights the felt reality and scientific certainty of climate change. So why is this still such a ...

A full-scale model of Parker Solar Probe, the history-making Johns Hopkins APL-built spacecraft that has flown closer to the ...

Shallem, Greg Ravikovich and Eitan Har-Shoshanim examine how AI addresses the challenge of data overload in solar PV.

Something unexpected has been happening in climate science labs and research institutions around the world. Scientists, the ...

Oak Ridge National Laboratory is building the technical case for 3D-printed parts inside U.S. nuclear reactors, combining ...

A new AI framework called THOR is transforming how scientists calculate the behavior of atoms inside materials. Instead of relying on slow simulations that take weeks of supercomputer time, the system ...

Austrian physicist Erwin Schrödinger developed quantum theory’s wave equation, which describes quantum systems as waves that ...

New paired studies from the University of Minnesota Twin Cities show that machine learning can improve the prediction of floods. The studies, published in Water Resources Research and the Proceedings ...

Every eleven years, the sun's magnetic field flips. Sunspots—dark, cooler regions on the sun's surface that mark intense ...

Long before nanotechnology existed, Richard Feynman explained how atoms could store huge amounts of information in microscopic spaces.

A novel theory suggests that the current expansion rate of the universe is not fixed, but was in fact quite different in the ...

The spatio-temporal evolution of wall-bounded turbulence is characterized by high nonlinearity, multi-scale dynamics, and chaotic nature, making its accurate prediction a significant challenge for ...