For the first time, scientists have experimentally confirmed that electrons can form tornado-like structures in momentum ...

Researchers from Würzburg have experimentally demonstrated a quantum tornado for the first time by refining an established ...

Physicists have uncovered a new quantum phenomenon, proving for the first time that electrons can form vortex-like structures ...

Researchers have experimentally demonstrated a quantum tornado. Electrons form vortices in the momentum space of the quantum semi-metal tantalum arsenide.

A breakthrough that’s turning heads in the scientific community: A young research team from Würzburg has experimentally demonstrated a quantum tornado for the first time by refining an established ...

Quantum entanglements between integer-order and fractional-order orbital angular momentums (OAMs) have been previously discussed. However, the entangled nature of arbitrary rational-order OAM has ...

Electrons possess electrical charge but also magnetic spin and orbital angular momentum. While charge and spin currents have ...

A similar interference effect also appears in a closely related property of light known as orbital angular momentum, which allows light to rotate particles around the optical axis, i.e., make them ...

Toroidal vortices, common in fluid dynamics, are newly explored in electromagnetism as two distinct forms: vector toroidal ...

Two experiment collaborations, the g2p and EG4 collaborations, combined their complementary data on the proton's inner ...

One of the knottier questions has been where the proton gets its intrinsic angular momentum, otherwise referred to as its spin. Nuclear physicists surmise that the proton's spin most likely comes ...

Spintronic devices instead use another fundamental property known as spin, which is the intrinsic angular momentum of the electron. A tactile visual artificial synapse provides a route for in situ ...