Photon Design, a photonic simulation CAD software company, has announced that its quantum dot module for its HAROLD laser ...

The global fiber laser market is expected to reach USD 4,304 million by 2024. It is expected to grow at an 11.5% CAGR over ...

Scientists are making X-ray free-electron lasers smaller and more affordable using plasma accelerator technology.

New research by scientists from the U.S. Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab), in ...

Key TakeawaysResearchers have built a compact X-ray free-electron laser (XFEL) using laser plasma accelerators to generate ...

In a groundbreaking studypublished in Physical Review Letters, researchers led by Professor Dong Eon Kim of POSTECH’s ...

Compound Semiconductor™ is an Angel Business Communications publication.

Wall Street's biggest bull sees tech and AI driving an 11% stock gain, fueled by strong fundamentals, M&A activity, and consumer spending through 2025.

This funding will enable xLight to continue designing and building the world's most powerful extreme-ultraviolet (EUV) free electron lasers (FEL).

III-V semiconductor lasers can be monolithically integrated with photonic chips by directly growing a crystalline layer of laser material, such as indium arsenide, on silicon substrate.

Tunable semiconductor ring lasers from TU Wien and Harvard offer powerful, scalable, and stable laser tech with game-changing applications.