Scientists have developed tunable materials that let free electrons move and interact in new ways, opening paths to faster ...

Electrons in graphene just broke their own sound barrier. Scientists created a controllable electronic shockwave inside a ...

The Tata Institute of Fundamental Research, Mumbai, in collaboration with the Australian National University, Canberra has demonstrated a novel way of steering a beam of relativistic electron pulses ...

Making electrons flow like a liquid is difficult, but inside graphene researchers forced them to move so fast that they ...

So how do you get an electron to float on top of helium? To find out, Ars spoke with Johannes Pollanen, the chief scientific officer of EeroQ, the company that accomplished the new work. He said that ...

A research team in Kiel has demonstrated a previously unknown effect in graphene—a single layer of carbon atoms whose discovery earned the 2010 Nobel Prize. For years, graphene has been seen as a ...

One day, powerful particle accelerators might fit in your pocket. Two teams of physicists have built tiny structures that both accelerate electrons and keep them confined in a manageable beam, instead ...

As the name suggests, particle accelerators involve accelerating subatomic particles to incredibly high speeds and smashing ...

Superradiance When multiple electrons emit light in a coordinated manner, the resulting emission is much stronger than the sum of individual emissions. (Courtesy ...

A hidden quantum geometry that distorts electron paths has finally been observed in real materials. This “quantum metric,” once thought purely theoretical, may revolutionize electronics, ...

Researchers from EeroQ, the quantum computing company pioneering electron-on-helium technology, have published a paper, ...