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Lau, Y.-C.*; 池田 絢哉*; 藤原 宏平*; 小沢 耀弘*; Zheng, J.*; 関 剛斎*; 野村 健太郎*; Du, L.*; Wu, Q.*; 塚崎 敦*; et al.
Physical Review B, 108(6), p.064429_1 - 064429_11, 2023/08
被引用回数:11 パーセンタイル:72.60(Materials Science, Multidisciplinary)Magnetic Weyl semimetals (mWSMs) are characterized by linearly dispersive bands with chiral Weyl node pairs associated with broken time-reversal symmetry. One of the hallmarks of mWSMs is the emergence of large intrinsic anomalous Hall effect. On heating the mWSM above its Curie temperature, the magnetism vanishes while exchange-split Weyl point pairs collapse into doubly degenerate gapped Dirac states. Here, we reveal the attractive potential of these Dirac nodes in paramagnetic state for efficient spin current generation at room temperature via the spin Hall effect. Ni and In are introduced to separately substitute Co and Sn in a prototypal mWSM CoSn
S
shandite film and tune the Fermi level. Composition dependence of spin Hall conductivity for paramagnetic shandite at room temperature resembles that of anomalous Hall conductivity for ferromagnetic shandite at low temperature; exhibiting peak-like dependence centering around the Ni-substituted Co
Ni
Sn
S
and undoped Co
Sn
S
compositions, respectively. The observed spin Hall and anomalous Hall conductivity maxima at different compositions reflect optimum Fermi-level positioning relative to the paramagnetic Dirac and magnetic Weyl states, suggesting the common origin and intercorrelation between the two Hall effects. Our findings highlight a strategy for the quest of spin Hall materials, guided by the abundant experimental anomalous Hall-effect data of ferromagnets in the literature.
Ziman, T.*; Gu, B.; 前川 禎通
Journal of the Physical Society of Japan, 86(1), p.011005_1 - 011005_8, 2017/01
被引用回数:1 パーセンタイル:11.01(Physics, Multidisciplinary)We examine the enhancement of the spin Hall effect due to resonant skew scattering induced by electron correlations. For single-impurity scattering, local Coulomb correlations may significantly change the observed spin Hall angle. There may be additional effects because of the special atomic environment close to a surface: extra degeneracies compared to the bulk, enhanced correlations that move the relative - or
-levels, and interference effects coming from the lower local dimension. Our results may explain the very large spin Hall angle observed in CuBi alloys. We discuss the impact on the spin Hall effect from cooperative effects, firstly in an itinerant ferromagnet where there is an anomaly near the Curie temperature originating from high-order spin fluctuations. The second case considered is a metallic spin glass, where exchange via slowly fluctuating magnetic moments may lead to the precession of an injected spin current.
前川 禎通
no journal, ,
We introduce mechanical effects in spintronics and propose a variety of novel spintronics phenomena. The mechanical generation of spin and spin current opens a door from "Spintronics" to "Spin-Mechatronics."