Now, a team of physicists from Washington University in St. Louis have created a new type of time crystal called a ...

A team of researchers has built an exciting new device to dramatically amplify microwave signals. It seems like a science fiction MacGuffin: it uses a purple diamond in a quartz tube exposed to an ...

You know how it is, you get in late from work, you’ve been stuck in traffic for what seems like an eternity, and you’re hungry. You reach for the microwave meal, and think, if only I didn’t ...

Yet, in a dazzling experiment, a group of physicists has done just that. They’ve created a new kind of temporal structure called a “discrete time quasicrystal” (DTQC), where the rhythms of quantum ...

WashU physicists shine a microwave laser into a chunk of diamond to create a time quasicrystal, a new phase of matter that repeats precise patterns in time and space. Credit: WashU In a new and ...

In the effort to build superconducting quantum computers, researchers around the world are working to develop electrical circuits that operate in the microwave domain using individual particles of ...

Princeton University researchers have built a rice grain-sized microwave laser. Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert!

Quantum computers use special bits called qubits, which are often made from microwave photons—tiny particles of microwave ...