Advances in information processing technologies rely fundamentally on the ability to manipulate,convey,and discern the information carriers[1].Topological spin textures,prized for robustness,tunability,and low energy ...Advances in information processing technologies rely fundamentally on the ability to manipulate,convey,and discern the information carriers[1].Topological spin textures,prized for robustness,tunability,and low energy consumption,are promising information carriers for next-generation spintronic technologies.Current research,like racetrack memories and logic gates[2,3],focused on manipulating spin textures via electrons/photons,while leveraging spin textures to control electrons/photons in semiconductors remains scarce.展开更多
基金supported by the National Key Research and Development Program of China(2022YFB3605604)the National Natural Science Foundation of China(62274139,61974123,62304188,62374143,and 62374144)+2 种基金the Natural Science Foundation of Fujian Province(2025J011001)the Basic Research Funds for Central Universities(20720220025)the Grants-in-Aid for Scientific Research from JSPS KAKENHI(JP25K17939 and JP20F20363).
文摘Advances in information processing technologies rely fundamentally on the ability to manipulate,convey,and discern the information carriers[1].Topological spin textures,prized for robustness,tunability,and low energy consumption,are promising information carriers for next-generation spintronic technologies.Current research,like racetrack memories and logic gates[2,3],focused on manipulating spin textures via electrons/photons,while leveraging spin textures to control electrons/photons in semiconductors remains scarce.
