For most practical applications, high-quality particle beams with high spatial quality and monoenergetic energy distribution are required. A beam that does not satisfy these criteria would be hard to ...

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 ...

The U.S. Navy has patented technology to create mid-air images to fool infrared and other sensors. This builds on many years of laser-plasma research and offers a game-changing method of protecting ...

In an experiment packed with scientific firsts, researchers have demonstrated that a laser pulse can accelerate an electron beam and couple it to a second laser plasma accelerator, where another laser ...

Muon beams can now be created in a device that is the length of a ruler. Researchers at Berkeley Lab presented a foot-long (30 cm) compact laser-plasma accelerator (LPA) that can generate and detect ...

Lawrence Berkeley National Laboratory researchers have accelerated electrons to high energies in less than a foot using a supersonic sheet of gas and two lasers. The breakthrough represents a ...

Laser plasma acceleration is a potentially disruptive technology: It could be used to build far more compact accelerators and open up new use cases in fundamental research, industry and health.

KAOHSIUNG, Aug. 29, 2025 /PRNewswire/ -- As AI, HPC, and 5G drive semiconductor innovation, advanced packaging has become the next strategic focus. Yole Group projects the market to exceed USD 50 ...