In a few picoseconds (trillionths of a second), a small, thin piece of copper momentarily becomes dense plasma, specifically ...

Nearly imperceptible quantum flickers used to limit how precisely we could detect the way space-time ripples, but squeezing ...

Wouldn’t it be cool if you could cut the grass with lasers? Everyone knows that lasers are basically magic, and if you strap ...

Spin is an intrinsic property of the electron. When electrons spin in the same direction at a given time, the quantity is ...

A recent breakthrough has paved the way for timekeeping even more precise than the measurements performed by atomic clocks.

Using a novel laser method, scientists mimicked the extreme environments of stars and planets, enhancing our understanding of ...

A team of researchers supported by the U.S. National Science Foundation has developed a new method of tracking the ultra-fast ...

Most atoms are made from positively charged protons, neutral neutrons and negatively charged electrons. Positronium is an exotic atom composed of a single negative electron and a positively charged ...

As part of the project, the LZH is responsible for the investigation and integration of an optimized electrically pumped ...

“The Princeton Plasma Physics Laboratory has been upgrading its tokamak for ... the US is finding an edge in other technology ...

The DOE funded work leverages the expertise of Caltech, specifically the Adhikari Research Group led by Professor Rana ...

Laser-plasma accelerators could revolutionize scientific research by providing compact, efficient particle acceleration. They ...