Muons are unstable subatomic particles that spontaneously and rapidly transform into other particles via a process known as ...

China’s race to harness fusion energy is no longer confined to a single experimental reactor. Its so‑called “artificial sun” ...

Ultraviolet-B (UV-B) semiconductor lasers are highly sought for medical, biotechnology, and precision manufacturing applications; however, previous UV-B laser diodes were limited to pulsed operation ...

Strong field laser physics investigates the interaction between intense laser pulses and matter, a domain where non-linear phenomena such as multiphoton absorption, tunnelling ionisation, and ...

Scientists have developed a groundbreaking technique called RAVEN that can capture the full complexity of an ultra-intense laser pulse in a single shot—something previously thought nearly impossible.

While the world continues to fixate on AI, there are still plenty of high performance computing workloads that need doing and a speedup to any one part can have a big impact, whether it be ...

Ultra-intense ultrashort lasers have a wide-ranging scope of applications, encompassing basic physics, national security, industrial service, and health care. In basic physics, such lasers have become ...

For 26-year-old Dani, the quote on her ribcage once meant everything. "It was something about freedom and finding yourself," she says with a smile that edges toward embarrassment. "Now I just want to ...

Gisela Eckhardt was one of the early pioneers in laser physics, discovering the principle behind the Raman laser in 1962. Valdas Pasiskevicius, Richard Mildren and David Burman tell the largely ...

Ultra-intense ultrashort lasers are powerful tools used in various fields like physics, national security, industry, and healthcare. They help researchers delve into strong-field laser physics, ...