One of the biggest problems facing modern microelectronics is that computer chips can no longer be made arbitrarily smaller ...

The second paper, "Fermion Chirality from Non-Bipartite Topology," applies this same lattice geometry to the quantum world. It proposes that the "handedness" (chirality) of subatomic particles is not ...

Researchers have developed what amounts to a programmable platform for quantum chirality that could provide new approaches to explore interacting electrons in chiral systems. (Nanowerk News) A new ...

The study of chiral nuclear physics explores the phenomenon of handedness that arises from the interplay between triaxial deformation and the angular momentum of valence nucleons. In such systems, the ...

Scientists have made a significant leap forward in the field of chiral molecules. The team achieved near-complete separation in quantum states for these essential components of life. This discovery ...

The non-chiral kagome lattice (corner-sharing triangles) basis of the topological material KV3Sb5 is found to develop subtle electronic chirality near the surface which shows distinct electromagnetic ...

Home > Press release: Microelectronics: Researchers identify ...

(Nanowerk News) Physicists in Konstanz (Germany) have discovered a way to imprint a previously unseen geometrical form of chirality onto electrons. The electrons are shaped into chiral coils of mass ...

The direction in which spin information is injected into chiral materials affects its ability to pass through them. These chiral 'gateways' could be used to design energy-efficient spintronic devices ...

Chirality—often described as "handedness"—is a fundamental property of nature, underlying the behavior of molecules ranging from DNA to pharmaceuticals. While chemists have long known how to separate ...

A new platform for engineering chiral electron pathways offers potential fresh insights into a quantum phenomenon discovered by chemists—and exemplifies how the second quantum revolution is fostering ...