過去の講演会・セミナー » 過去に開催された講演会・セミナー(2014年度) » 第272回応用セラミックス研究所講演会 (Dr. Matthias Opel, Bayerische Akademie der Wissenschaften, Germany)
第272回応用セラミックス研究所講演会 (Dr. Matthias Opel, Bayerische Akademie der Wissenschaften, Germany)
開催日時 2014年06月23日 13:30-15:00
開催場所 J2棟20階 中会議室
主催応用セラミックス研究所
連絡先谷山 智康 准教授(内線:5632)

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第272回応用セラミックス研究所講演会

講師:Dr. Matthias Opel (Walther-Meissner-Institut, Bayerische Akademie der Wissenschaften, Germany)

講演テーマ: Origin of the Magnetoresistance in Pt on Y3Fe5O12 (YIG)

講演概要:The study of spin current phenomena in ferromagnetic metals or semiconductors is affected by charge currents occurring simultaneously. To avoid such combination and the resulting ambiguities, ferromagnetic insulators like Y3Fe5O12(YIG) have come into the focus of current research. The detection of spin currents is usually based on their conversion to charge currents in an adjacent metallic paramagnetic Pt layer, taking advantage of the inverse spin-Hall effect. Recently, magnetotransport experiments in Pt|Y3Fe5O12 hetero¬structures revealed a magneto-resistance effect of Pt, displaying a hysteresis with a maximum at the coercive fields of Y3Fe5O12. This unexpected observation is interpreted controversially in terms of a novel spin-Hall magnetoresistance (SMR) or a magnetic proximity magneto¬resistance (MPMR) effect . To clarify this situation, we employ an element-specific study of the magnetic behavior of Pt|Y3Fe5O12 heterostructures. Using X-ray magnetic circular dichroism (XMCD) measurements, we explore the possible existence of proximity magnetism in thin Pt films with different thicknesses ranging from 10 nm down to 1.6 nm, evaporated in-situ on epitaxial layers of the ferrimagnetic insulator Y3Fe5O12. Our data unambiguously show that (if present at all) the induced magnetic moment in Pt is negligibly small and cannot account for the observed hysteretic magnetoresistance. We estimate an upper limit of (0.003 ± 0.001) Bohr magnetons per Pt atom, in contrast to a later report. We unambiguously demonstrate that a magnetic proximity effect cannot be responsible for the observed magneto¬resistance in Pt on Y3Fe5O12. Our data instead strongly support the recent model of a spin-Hall magneto¬resistance effect.




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