In the quirky quantum world, particles can be affected by forces that they never directly encounter. A classic example is the Aharonov–Bohm (AB) effect, where electrons are affected by a magnetic ...

In a process analogous to how solids melt into liquids, the electrons in many different metals form crystal-like patterns ...

A speck of metal containing thousands of atoms has no business behaving like a ghost. Yet in a vacuum chamber at the ...

First experimental observation of matter-wave diffraction in a short-lived electron-positron atom using a graphene-based diffraction grating. (Nanowerk News) One of the discoveries that fundamentally ...

One of the defining breakthroughs that set quantum physics apart from classical physics was the realization that matter behaves very differently at ...

Scientists have created a powerful new way to control quantum systems, achieving the first-ever demonstration of ...

Scientists are learning to engineer light in rich, multidimensional ways that dramatically increase how much information a single photon can carry. This leap could make quantum communication more ...

Lines of momentarily flat water extend outward and rotate, in the opposite direction to the flow of the vortex. The left video shows the pattern from the experiment, while the right video shows the ...

A new study reveals how a spinning vortex causes system-wide, counter-rotating wave patterns, mimicking effects that occur, but cannot be seen, in the quantum realm. (Nanowerk News) In the quirky, ...