Tests in a gate-defined loop on graphene tracked a fractional charge circling back with a steady interference beat, as ...

Long before quantum mechanics existed, a scientist developed a powerful way of describing motion by drawing an analogy between particles and light.

A stable graphene signal suggests some quantum particles can remember past interactions, a key step toward quantum computing.

There is no measurement that can directly observe the wave function of a quantum mechanical system, but the wave function is still enormously useful as its (complex) square represents the probability ...

A hundred years ago this week, at the height of the quantum revolution, Austrian physicist Erwin Schrödinger submitted a ...

A century ago, Erwin Schrödinger came up with an equation that says how the quantum world behaves. Now scientists are asking ...

The same phenomenon was later confirmed for neutrons, helium atoms, and even large molecules, making matter-wave diffraction ...

Much has been made of the excessive power demands of AI, but solutions are sparse. This has led engineers to consider ...

First experimental observation of matter-wave diffraction in a short-lived electronpositron atom using a graphene-based diffraction grating.

For the first time, researchers from Tokyo University of Science have observed wave-like interference patterns from ...

Scientists at the X-ray free-electron laser SwissFEL have realized a long-pursued experimental goal in physics: to show how electrons dance together. The technique, known as X-ray four-wave mixing, ...