Physicists at the University of Wisconsin-Madison directly measured, for the first time at nanometer resolution, the fluid-like flow of electrons in graphene. The results, which will appear in the ...

Conventional wisdom holds that an electric current never returns to its source nor follows a circular path. Instead, it flows from one electrode to another following a local electric field, obeying ...

(Santa Barbara, Calif.) — A condition long considered to be unfavorable to electrical conduction in semiconductor materials may actually be beneficial in 2D semiconductors, according to new findings ...

In a strange metal (translucent box), electrons (blue marbles) lose their individuality and melt into a featureless, liquid-like stream. We all learned that electricity is caused by electrons moving ...

Diffusion and hydrodynamic flow There are two main types of energy transport that underlie the researchers' concept: hydrodynamic flow, a collective kinetic process where the individual components of ...

Scientists have observed a quantum fluid of electrons in graphene for the first time, showing near-perfect fluid behaviour and shedding light on a quantum physics puzzle. In a collaborative effort, ...

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 ...

(NewsNation) — Physicists at MIT have found a way to observe electrons in some exotic materials that appear to flow without resistance. The discovery could lead to the invention of superefficient ...