Researchers have developed a microscopic 3D-printed optical device that can efficiently combine light from dozens of small semiconductor lasers into a single multimode optical fiber with very low loss ...

Researchers in Israel have created a microscopic optical device that could simplify high-power laser ...

Researchers have built a microscopic 3D-printed optical device that funnels light from 37 separate multimode semiconductor lasers into a single optical fiber, merging 222 distinct spatial modes; the ...

Ultrashort mid-infrared (mid-IR) laser pulses are essential for applications such as molecular spectroscopy, nonlinear microscopy, and biomedical imaging, but their generation often relies on complex ...

Launches aimed at supporting transition towards multi-rack scale-up and high-bandwidth scale-out in AI data centers ...

Physicists and chemists at Heidelberg University have realized a photonic microchip that is driven by light just as easily as ...

Lightmatter, the leader in photonic (super) computing, today announced vClick™ Optics, a breakthrough technology enabling detachable fiber array units (FAU) that overcome the critical scaling ...

One approach to creating a quantum computer is to use trapped ions, which rely on lasers delivered by optical fibers for quantum control. Our robust feedback control system uses a six-axis stage to ...

Available in 3-asix to 6-axis variants for single- and dual-sided fiber and fiber-array applications. The F-141 PINovAlign is a cost-optimized, high-speed photonics alignment system available in 3 to ...

San Diego, CA – PI will demonstrate the world’s fastest photonics alignment engines and fiber optic alignment algorithms. Leveraging a combination of precision mechanics, advanced motion controllers, ...

EXFO’s Olivier Côté digs into testing challenges — and outlines how methods are evolving to accommodate hollow core fiber's ...