Scientists report the discovery of a "transdimensional anomalous Hall effect" revealing an unusual behavior in a new kind of ...

Add Yahoo as a preferred source to see more of our stories on Google. Imagine a super-cold, ultra-thin layer of electrons trapped in a strong magnetic field. Normally, electrons move independently, ...

If one side of a conducting or semiconducting material is heated while the other remains cool, charge carriers move from the hot side to the cold side, generating an electrical voltage known as ...

Artist’s impression of the quantum spin Hall effect in a graphene-based spintronic device, integrated in a chip. The blue and red spheres are spin-up and spin-down electrons traveling along the edge ...

Researchers at the National Graphene Institute at the University of Manchester have achieved a significant milestone in the field of quantum electronics with their latest study on spin injection in ...

Forced to run a labyrinth of carbon atoms uniquely arranged in twisted stacks, electrons do some rather peculiar things. The findings confirm predictions on how electrons ought to behave when squeezed ...

In a major breakthrough, scientists have observed electrons in graphene flowing like a nearly frictionless liquid, defying a core law of physics. This exotic quantum state not only reveals new ...

Researchers demonstrate orbital hybridization in graphene-based quantum dots, revealing how anisotropic confinement influences electronic states at the atomic scale. Quantum dots, often described as ...

While conventional qubits remain as fragile as fine china, susceptible to environmental decoherence, topological qubits come naturally "armor-plated" with intrinsic fault tolerance. For decades, ...