Blast a high-intensity monochromatic laser down one end ... a gorgeous supercontinuum containing light from 430 nm to 670 nm — pretty much the entire visible spectrum. It’s great to see ...

Ultrawide-bandgap semiconductors—such as diamond—are promising for next-generation electronics due to a larger energy gap ...

Powered by laser light, this tiny sail lays the groundwork for future advances in lightsail technology and the potential for ...

Under very specific conditions, a laser beam can cast a shadow, challenging our traditional understanding of light. This unusual phenomenon, revealed by a team of researchers, paves the way for ...

Researchers have built a deep-ultraviolet microscope to study hard-to-analyze materials like diamond, offering a new way to probe their electronic and thermal properties at the nanoscale. This ...

A team of researchers at JILA, led by Professors Margaret Murnane and Henry Kapteyn, has developed a groundbreaking ...

The Laserlight Core's main party trick is its ability to beam an image onto the road ahead, meaning cyclists are arguably visible ... light mode, but achieving the perfect positioning for a decent ...

The primary difference between Optical SETI and Radio SETI is that Optical SETI searches for pulses of laser light in or near the visible portion of the light sprectrum, while Radio SETI searches for ...