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RESEARCH PRODUCT

Role of top and bottom interfaces of a Pt/Co/AlOx system in Dzyaloshinskii-Moriya interaction, interface perpendicular magnetic anisotropy, and magneto-optical Kerr effect

June-seo KimJune-seo KimJinyong JungDong-soo HanNam-hui KimMyung-hwa JungChun-yeol YouHenk J. M. SwagtenKyujoon LeeYuxiang YinJaehun Cho

subject

Materials scienceCondensed matter physicsPerpendicular magnetic anisotropyGeneral Physics and Astronomychemistry.chemical_element02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencesLayer thicknessCopperlcsh:QC1-999chemistryMagneto-optic Kerr effect0103 physical sciencesEnergy densityInteraction interface010306 general physics0210 nano-technologyPlatinumCobaltlcsh:Physics

description

We investigate the role of top and bottom interfaces in inversion symmetry-breaking Pt/Co/AlOx systems by inserting ultra-thin Cu layers. Wedge-type ultrathin Cu layers (0-0.5 nm) are introduced between Pt/Co or Co/AlOx interfaces. Interface sensitive physical quantities such as the interfacial Dzyaloshinskii-Moriya interaction (iDMI) energy density, the interfacial perpendicular magnetic anisotropy (iPMA), and the magneto-optical Kerr effects (MOKE) are systematically measured as a function of Cu-insertion layer thickness. We find that the Cu-insertion layer in the bottom interface (Pt/Co) plays a more important role in iDMI, PMA, and MOKE. In contrast, the top interface (Co/AlOx) noticeably contributes to only PMA, while its contributions to iDMI and MOKE enhancement are less significant. Although the PMA mainly comes from the bottom interface (Pt/Co), the Cu-insertion layers of all interfaces (Pt/Co, Co/AlOx) influence PMA. For iDMI, only the Cu-insertion layer in the bottom interface exerts SOC suppression which leads iDMI energy to decrease rapidly.

yearjournalcountryeditionlanguage
2017-03-31
10.1063/1.4978867https://research.tue.nl/nl/publications/d20ed198-190d-441e-bc45-cfe052230fd6