The kagome lattice has emerged as a fertile platform for investigating intertwined electronic orders owing to its unique geometric frustration and nontrivial band topology. In materials such as AV3Sb5 ...

Diffraction patterns captured before and after a 20-nanosecond electrical pulse. The star-shaped pattern of small white spots, left, corresponds to the initial charge density wave pattern, which is ...

Scientists have discovered a way to efficiently transfer electrical current through specific materials at room temperature, a finding that could revolutionize superconductivity and reshape energy ...

Much has been made of the excessive power demands of AI, but solutions are sparse. This has led engineers to consider completely new paradigms in computing: optical, thermodynamic, reversible—the list ...

Superconductivity theory proposed by physics team validated in international experiment: Cooper pairs display wave-like distribution in Kagome metals, enabling new technological applications like ...

Cryogenic 4D-STEM reveals how charge density waves form, fragment, and persist across a phase transition. (Nanowerk News) Electronic order in quantum materials often emerges not uniformly, but through ...

Researchers have observed a doping-tunable charge density wave (CDW) in a single-layer semiconductor, extending the CDW phenomenon from metals to doped semiconductors. (Nanowerk News) Researchers at ...