A team of researchers has successfully demonstrated nonlinear Compton scattering (NCS) between an ultra-relativistic electron ...

FRUIT FLIES are smart. For a start—the clue is in the name—they can fly. They can also flirt; fight; form complex, long-term memories of their surroundings; and even warn one another about the ...

A team of researchers has successfully demonstrated nonlinear Compton scattering (NCS) between an ultra-relativistic electron beam and an ultrahigh intensity laser pulse using the 4-Petawatt laser.

A research team has achieved a major advance in X-ray science by generating unprecedented high-power attosecond hard X-ray pulses at megahertz repetition rates. This advancement opens new frontiers in ...

Recent advancements at the Thomas Jefferson National Accelerator Facility have enabled physicists to explore the internal ...

Protons and neutrons–known collectively as nucleons–are both the building blocks of matter, but one of these particles has ...

Niccolai proposed the experiment that enabled this measurement ... or how they contribute to overall nucleon spin.

Traditionally, X-ray methods require at least 10,000 atoms to generate a detectable signal. This is because the X-ray signal ...

The KATRIN experiment presented a new upper limit on the effective electron–anti-neutrino mass of 0.45 eV, well en route ...

X-ray free-electron lasers are powerful tools for studying matter at the atomic level, but their light pulses are often noisy ...

Thus, the electron temperature curve can be used to deduce the neutral beam deposition profile, allowing experimental monitoring of neutral beam performance. This will allow researchers to accurately ...