For the first time, scientists have measured the shape of an electron in solids, opening the door to advances in quantum ...

The resulting oscillations exert a force on the electrons in graphene. This generates a circular electron density wave that ...

Until now, the furthest from Earth they've been detected is 51,000 kilometers (31,690 miles). That's around the spot where ...

Imagine standing by a lake and throwing a stone into the water. Waves spread out in circular patterns and can reflect at ...

Because varying the focus induces phase shifts into the electron wave field, this technique has similarities to interferometry. On the basis of this image series, the EPWF can be calculated using ...

This happens because electron particles are able to travel in a wave pattern like light waves, according to quantum physics. As a result, earlier research has shown that they can interfere with ...

Scientists have come a step closer to understanding how collisionless shock waves—found throughout the universe—are able to ...

How? Well, if we take quantum mechanics seriously and look at the electron as a wave, it becomes possible to cross the barrier. In 1926, a man by the name of [Erwin Schrödinger] published a paper ...

“The resulting oscillations exert a force on the electrons in graphene. This generates a circular electron density wave that propagates through the graphene beneath the tip. The wave can reflect ...

and Fanghao Meng has shown the potential of magnon wave packets—collective excitations of electron spin—to transport quantum ...