Physicists show that magnetoelastic coupling, present in nearly all magnets, can generate skyrmion arrays without crystal ...

Researchers have used advanced solid-state nuclear magnetic resonance spectroscopy to directly observe chalcogen bonds, the ...

Spin–orbit coupling in Bose–Einstein condensates (BECs) provides a rich framework for exploring quantum many‐body phenomena, topological phases and emergent lattice structures. By linking the ...

Skyrmions, in which electron spins inside a magnet are arranged like vortices, are a key structure in next-generation spintronics technology. KAIST researchers have shown that skyrmions can form using ...

A theoretical study posted to arXiv in early 2026 argues that magnetic skyrmions, tiny whirlpool-like spin textures inside magnets, can emerge from ordinary atomic-scale interactions rather than ...

Researchers have proposed that a newly identified class of magnetic materials could extend the zero-resistance currents of superconductors to electron spins. Publishing their calculations in Physical ...

Schematic diagram of the light spin Hall effect driven by mixed spin-orbit coupling in organic microcavities. In the middle is the structure of the organic microcavity and the angle-resolved white ...