The new air-to-air laser weapon's power level could be 25 kilowatts. However, the basic laser technology is scalable to ...

A team of researchers has developed an interesting optical method to study the formation of the electrical double layer (EDL) ...

Charged surfaces in contact with liquids—such as biological cell walls or battery electrodes—attract oppositely charged ions ...

Explore the future of AI and autonomous flight, with insights on drone technology from Bill Irby, CEO of AgEagle Aerial ...

EPFL researchers succeeded in sending and storing data using charge-free magnetic waves called spin waves, rather than ...

Charged surfaces in contact with liquids – such as biological cell walls or battery electrodes – attract oppositely charged ions from the liquid. This creates two distinct charged regions: the surface ...

Researchers from Max Born Institute have demonstrated a successful way to control and manipulate nanoscale magnetic bits—the ...

With a €6 million investment from the European Commission, the SPRINTER project is developing new optical and wireless ...

How it works Artist’s impression of how an ultrafast disruption of superconductivity in a YBCO thin film triggers an abrupt ...

Abnormal versions of synchronization patterns known as “Arnold’s tongues” have been observed in a femtosecond fibre laser that generates oscillating light pulses. While these unconventional patterns ...

A new project is developing an ultra-fast, energy-efficient industrial internet using light-speed lasers and next-generation flexible and adaptable wireless to power future smart factories.

Unlike traditional benchtop designs, Edmund Optics’ isolators are integration-ready, making them perfect for embedded systems and production modules. With Edmund Optics’ globally trusted inventory and ...