Researchers at TU Wien have developed a model explaining the phenomenon of Fermi arcs in high-temperature superconductors, specifically in cuprates. This behavior, where electrons move in restricted directions, puzzled scientists for years. The team’s breakthrough reveals that the directional restriction of electron movement stems from an antiferromagnetic “chessboard” pattern in electron magnetic alignments. This new understanding advances knowledge of high-temperature superconductivity and could pave the way for future research into unconventional materials with similar quantum properties.
Please continue reading the full article under the link below:
Please consult also the Quantum Server Marketplace platform for the outsourcing of computational science R&D projects to external expert consultants through remote collaborations:
#materials #materialsscience #materialsengineering #computationalchemistry #modelling #chemistry #researchanddevelopment #research #MaterialsSquare #ComputationalChemistry #Tutorial #DFT #simulationsoftware #simulation