Superconductivity is an advantageous property observed in some materials, which entails the ability to conduct electricity ...

A new discovery reveals how a mysterious quantum spin excitation — a solitary spinon — can exist alone, hinting at advances in quantum technologies. Scientists from the Faculty of Physics at the Unive ...

This magnetoelastic coupling is linear in magnetic order and lattice parameters, rendering these distortions inaccessible to inelastic scattering techniques. Our results not only capture the elusive ...

Max Verstappen's spin at the British Grand Prix just after a notable moment with Oscar Piastri behind the safety car raises ...

Spin valves have received significant attention in the realm of flexible magnetic materials and devices due to their advantages of rapid response and high integration. Despite these benefits, the ...

We show the spin swapping effect originated from band structure in centrosymmetric ferromagnets. Without breaking inversion symmetry or introducing spin-orbit impurities, the effect is attributed to ...

A team of researchers has developed a novel method for using cholesteric liquid crystals in optical microcavities. The ...

What if electricity and magnetism, usually considered as separate or even competing forces in materials, could actually work together in harmony?

Jun 26, 2025 Charge-spin coupling in room-temperature 2D ferromagnetic material In Fe5GeTe2, researchers directly observe atomic-scale coherence linking charge density waves, Kondo physics, and ...

An example of precise evaluation of backbone scalar J couplings using random sampling of evolution time space in 3D NMR experiments is presented. The recorded spectrum, due to violation of the Nyquist ...

We introduce a state-interaction approach for computing g-matrices within time-dependent density functional theory (TDDFT) and the Tamm–Dancoff approximation (TDA), applied here for the first time.