Electricity powers our lives, including our cars, phones, computers, and more, through the movement of electrons within a ...

From left, researchers Cyprian Lewandowski, Aman Kumar and Hitesh Changlani. (Devin Bittner/FSU College of Arts and ...

Ballistic electrons are among the most fascinating phenomena in modern quantum materials. Unlike ordinary electrons, they do ...

In a metal like copper, however, the outer electrons swim around freely and are shared by all the atoms. That’s why ...

Design transforms heat into electrical energy via thermionic electron emission.

This video explains how diodes function as directional components in electronic circuits. Diodes allow current to flow in ...

Yet even at this apparently late date in the field’s development, there are companies that are still developing entirely new qubit technologies, betting the company that they have identified something ...

For the first time, researchers have pushed electrons to flow so fast they went supersonic, creating a shockwave. The currents of electricity flowing through our devices share a name with river ...

Scientists have detected a “Dirac fluid” in graphene, where electrons flow like a nearly perfect liquid and defy conventional physics. Credit: SciTechDaily.com Electrons in graphene can act like a ...

In a collaborative effort, researchers at the Indian Institute of Science and Japan's National Institute for Materials Science have captured an elusive fluid state in graphene. The study was published ...

"Thanks to Solar Orbiter, we're getting to know our star better than ever." The joint European Space Agency (ESA) and NASA Solar Orbiter spacecraft has tracked electrons traveling at nearly the speed ...