Electrons in solar materials can be launched across molecules almost as fast as nature allows, thanks to tiny atomic vibrations acting like a “molecular catapult.” In experiments lasting just 18 ...

Electrons can be "kicked across" solar materials at almost the fastest speed nature allows, scientists have discovered, ...

Fluids moving through pipes lose energy to friction along the walls. Collisions, defects, and random motion steadily break ...

For the first time, the Tibet ASγ Experiment has successfully measured magnetohydrodynamic (MHD) turbulence on scales below one parsec (approximately 3.3 light-years) within the gamma-ray halo ...

The Tibet ASγ Experiment has successfully, for the first time, measured magnetohydrodynamic (MHD) turbulence on scales below one parsec (approximately ...

In Part 4, Carolyn Krause learns more about the processes behind BWXT and LIS Technologies, which will be part of the nuclear hub.

The Tibet ASγ Experiment has successfully, for the first time, measured magnetohydrodynamic (MHD) turbulence on scales below one parsec (approximately 3.3 light-years) within the gamma-ray halo ...

The experiment was conducted by researchers at Stanford University in the United States as part of a wider study involving patients with amyotrophic lateral sclerosis (ALS), a progressive neurodegener ...

In many quantum materials—materials with unusual electrical and magnetic properties driven by quantum mechanical effects—electrons can organize themselves into Landau levels. Landau levels are ...

The tracker was lowered into Mu2e Hall in November, joining the two calorimeter disks already installed over the rails in September.JJ Starr, Fermilab Researchers in the United States’ Fermilab moved ...

A competition calling for research projects involving so-called AI scientists shows just how fast this technology is moving. A number of startups and university teams that are building “AI scientists” ...