When quantum particles work together, they can produce signals far stronger than any one particle could generate alone. This ...

Quantum particles can work together to produce powerful signals. However, those signals are unstable and usually vanish ...

Long considered a serious technical challenge, superradiance could actually help quantum devices go even further.

Researchers have demonstrated for the first time self-induced superradiance in quantum particles, completely flipping what ...

Here’s the thing about radio signals. There is wild and interesting stuff just getting beamed around all over the place. Phrased another way, there are beautiful signals everywhere for those with ears ...

By product type, flexible cable assemblies dominate the market with nearly 42% share in 2025. Their routing versatility, ...

The achievement provides a promising pathway towards small-footprint ultra-low-noise microwave generation for applications such as high-speed communication, atomic clocks, and autonomous vehicles. A ...

Microwave photonic signal processing is an emerging field that exploits the interplay between microwave signals and photonic components to achieve functionalities that exceed the limitations of ...

Vector modulation is increasingly used in microwave and satellite communication applications, but generating vector-modulated signals for measurement can be difficult and expensive. However, using ...

Quantum physicists have found a way to make clouds of atomic-scale spins act like a single, disciplined antenna, generating microwave signals that are both powerful and remarkably long lived. Instead ...

A high-level schematic of the photonic integrated chip, developed by the Gaeta lab, for all-optical optical frequency division, or OFD – a method of converting a high-frequency signal to a lower ...