Try to fathom the power of 1 million nuclear power plants. Now, imagine there is a way to pack the equivalent of that into ...

Instantly turning a material from opaque to transparent, or from a conductor to an insulator, is no longer the stuff of ...

The ASU team set out to develop the first compact X-ray free electron laser, or CXFEL. A dramatically smaller and less ...

Laser technology is going to play an important role in advancing quantum devices, healthcare tools, and optical computing ...

For laser beam characterisation, the conventional camera-based method described in ISO 11146 requires several measurements at ...

For the first time, scientists have 'photographed' a rare plasma instability, where high-energy electron beams form into ...

Physicists have transformed laser light into a supersolid, marking an entirely new process for achieving this mysterious ...

For several years now, scientists have been using lasers to control the properties of matter at extremely fast rates: during one optical cycle of a light wave. But because these changes occur on the ...

The semiconductor wafer is produced using conventional manufacturing methods — molecular-beam epitaxy ... of an individual laser-diode array is more than 50 W continuous-wave, depending on ...

Discover how Farsoon and beam shaping improve metal additive manufacturing with innovative laser spot configurations and ...

An art installation featuring 30 laser beams in primary colors will shine from the top of the Space Needle Friday night.

A team of physicists, led by Jonathan Richardson from the University of California, Riverside, has made a breakthrough in ...