Scientists in Japan have isolated an important type of electron for further study. Dirac electrons develop in certain ...

electrons move onto the balloon giving it a negative charge. When the negatively charged balloon is brought near the water, electrons are repelled and move away from the balloon, leaving a positive ...

Related: Razor-thin crystalline film 'built atom-by-atom' gets electrons moving 7 times faster than in semiconductors To create an exposure time capable of capturing electron movements ...

A research team at Yokohama National University has developed a way to study how the orientation and behavior of electrons in ...

Researchers at The University of Manchester in the UK have discovered that electrons in graphene act like a very unique liquid. The movement of electron fluid in graphene has, for the first time, been ...

Plasmonic Resonators, also called antennas for light, serve as the best structure for much faster data transmissions. These ...

A research team at the University of Virginia is revolutionizing the future of space travel with groundbreaking studies on ...

Hidden patterns in electric propulsion plasma beams could help ensure the success of long-term space missions.

It allowed the MIT team to analyze the quantum geometry (i.e. QGT) of electrons, including other important properties like ...

When two different insulators are rubbed together, electrons move from one insulator to the other. The electrons (negative charges) orbit near the edge of the atom. If the outer electrons have ...