(a) Ordinary electrons without wave shaping have a uniform wave pattern when they travel. In simulations, the electrons collide with the atoms in graphene (red spheres represent graphene atoms and ...

Researchers at the Institute of Industrial Science, The University of Tokyo have precisely quantified “quantum tunneling” of hydrogen atoms in palladium at low temperatures, motion that is impossible ...

Physicists have uncovered how direct atom-atom interactions can amplify superradiance, the collective burst of light from atoms working in sync. By incorporating quantum entanglement into their models ...

WEST LAFAYETTE, Ind. — Matter gets weird at the quantum scale, and among the oddities is the Efimov effect, a state in which the attractive forces between three or more atoms bind them together, even ...

Using a clever laser technique, scientists have squished pairs of atoms closer together than ever before, revealing some truly mind-boggling quantum effects. When you purchase through links on our ...

Repeatedly energising a collection of ultracold atoms should destroy their collective structure, but quantum effects seem to counteract the process. “We expected to see the opposite,” says Nӓgerl. The ...

Usually, when the fired electrons collide with the atoms of the material, the electrons become deflected and emit X-rays, in what is called bremsstrahlung or “braking radiation”. Bremsstrahlung ...

(Nanowerk News) Scientists led by Nanyang Technological University, Singapore (NTU Singapore) have developed and simulated a new energy-efficient way to generate highly focused and finely controlled X ...

(a) Ordinary electrons without wave shaping have a uniform wave pattern when they travel. In simulations, the electrons collide with the atoms in graphene (red spheres represent graphene atoms and ...

Scientists led by Nanyang Technological University, Singapore (NTU Singapore) have developed and simulated a new energy-efficient way to generate highly focused and finely controlled X-rays that are ...