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

The newly generated ion pulses last less than 500 picoseconds, which is an unimaginably brief period where even light travels ...

Scientists have developed a groundbreaking method to track the ultra-fast heat progression in warm, dense matter plasmas ...

Prof. Sebastian Loth and his team have captured atomic-level electron motion in solids with unprecedented spatial and ...

In a few picoseconds (trillionths of a second), a small, thin piece of copper momentarily becomes dense plasma, specifically a state called warm dense matter, warm being a relative term – the metal is ...

TU Wien (Vienna) has succeeded in generating laser-synchronized ion pulses with a duration of well under 500 picoseconds, which can be used to observe chemical processes on material surfaces.

AI applications are driving hyperscalers to adopt a new data center-scale switch fabric, called the AI backend network. And ...

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

Nobel laureate Pierre Agostini, winner of the 2023 prize in physics, will headline a special two-day event hosted by the ...

Researchers in the Institute for Molecular Science revealed the quantum entanglement between electronic and motional states ...

In the case of the NIF, a 500 TW (pulse) laser is used, delivering all of the energy to the target within a few picoseconds. Due to the intense stresses on the laser system the NIF is limited to a ...