新素材がコンピューターや電子機器のエネルギー消費削減のカギを握る可能性(New material could hold key to reducing energy consumption in computers and electronics)

2023-07-13 ミネソタ大学

＜関連情報＞

• https://cse.umn.edu/college/news/new-material-could-hold-key-reducing-energy-consumption-computers-and-electronics
• https://www.nature.com/articles/s41467-023-39408-2

スパッタされたPt3SnおよびPt3SnxFe1-xトポロジカル半金属における頑強な負の縦磁気抵抗とスピン軌道トルク Robust negative longitudinal magnetoresistance and spin–orbit torque in sputtered Pt3Sn and Pt3SnxFe1-x topological semimetal

Delin Zhang,Wei Jiang,Hwanhui Yun,Onri Jay Benally,Thomas Peterson,Zach Cresswell,Yihong Fan,Yang Lv,Guichuan Yu,Javier Garcia Barriocanal,Przemyslaw Wojciech Swatek,K. Andre Mkhoyan,Tony Low & Jian-Ping Wang
Nature Communications  Published:12 July 2023
DOI:https://doi.org/10.1038/s41467-023-39408-2

Abstract

Contrary to topological insulators, topological semimetals possess a nontrivial chiral anomaly that leads to negative magnetoresistance and are hosts to both conductive bulk states and topological surface states with intriguing transport properties for spintronics. Here, we fabricate highly-ordered metallic Pt₃Sn and Pt₃Sn_xFe_1-x thin films via sputtering technology. Systematic angular dependence (both in-plane and out-of-plane) study of magnetoresistance presents surprisingly robust quadratic and linear negative longitudinal magnetoresistance features for Pt₃Sn and Pt₃Sn_xFe_1-x, respectively. We attribute the anomalous negative longitudinal magnetoresistance to the type-II Dirac semimetal phase (pristine Pt₃Sn) and/or the formation of tunable Weyl semimetal phases through symmetry breaking processes, such as magnetic-atom doping, as confirmed by first-principles calculations. Furthermore, Pt₃Sn and Pt₃Sn_xFe_1-x show the promising performance for facilitating the development of advanced spin-orbit torque devices. These results extend our understanding of chiral anomaly of topological semimetals and can pave the way for exploring novel topological materials for spintronic devices.