奈米磁性異質結構中磁傳輸特性之多重調控機制(1/3)

In this project, our self-developed “DFT+SOC+JunPy+LLG” combined with “psfexx+SOC” will be employed to investigate the multi-control of magnetotransport and interfacial magnetic anisotropy (iMA) in nanoscale magnetic heterostructures. We aim to resolve several simulation difficulties in (1) layer-resolved iMA of FM/HM and FM/Oxide magnetic bilayers, (2) current-driven spin torque acting on the local spin moment of each magnetic site and micro-spin dynamics for AFM-based spintronics, and (3) dual control of iMA and magnetotransport of Co/PtSe2 zigzag nanoribbon magnetic bilayer, either by an in-plane current density or via a mechanical strain. We believe these multidiscipline and highly challenging researches may provide promising simulation tools for next-generation, multifunctional, and low-energy consumption spintronics devices.