From smart grids to the internet of things, the modern world is increasingly reliant on connectivity between electronic ...

Scientists have developed a groundbreaking technique called RAVEN that can capture the full complexity of an ultra-intense ...

Laser power converters can help devices remain connected and be powered with a simple optical fiber over long distances, even in the harshest environments.

Scientists at the University of Oxford have unveiled a pioneering method for capturing the full structure of ultra-intense ...

The device works by firing two dart-like electrodes which deliver an electric current strong enough to disrupt voluntary ...

Ultra-intense lasers can accelerate electrons to near-light speeds within a single oscillation (or 'wave cycle') of the electric field, making them a ...

Scientists at EPFL have created a revolutionary biosensor that doesn't need a light source—it makes its own glow using quantum tunneling. By guiding electrons through a nanostructure of gold and ...

Researchers use circularly polarized light to control the direction of exciton polaritons in 2D semiconductors, enabling new ...

Researchers at the University of Ottawa have developed high-efficiency photonic power converters that promise to transform smart grids, IoT networks, and even space communication—ushering in a new era ...

Centrosymmetric crystals have always absorbed equal amounts of left- and right-handed circularly polarized light—until now ...

No matter the use case, there are some tools you should always look to buy new. These are such tools from the catalogue of ...

A computational paradigm that can accurately simulate interactions between powerful laser beams and quantum fluctuations in a vacuum has been unveiled by researchers in the UK and Portugal. Led by ...