Spin-Orbit Torques in Heavy-Metal-Ferromagnet Bilayers with Varying Strengths of Interfacial Spin-Orbit Coupling

Zhu Lijun; Ralph D. C.; Buhrman R. A.

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Spin-Orbit Torques in Heavy-Metal-Ferromagnet Bilayers with Varying Strengths of Interfacial Spin-Orbit Coupling

机译：界面自旋轨道耦合强度不同的重金属-铁磁体双层自旋轨道转矩

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Despite intense efforts it has remained unresolved whether and how interfacial spin-orbit coupling (ISOC) affects spin transport across heavy-metal (HM)-ferromagnet (FM) interfaces. Here we report conclusive experiment evidence that the ISOC at HM/FM interfaces is the dominant mechanism for "spin memory loss". An increase in ISOC significantly reduces, in a linear manner, the dampinglike spin-orbit torque (SOT) exerted on the FM layer via degradation of the spin transparency of the interface for spin currents generated in the HM. In addition, the fieldlike SOT is also dominated by the spin Hall contribution of the HM and decreases with increasing ISOC. This work reveals that ISOC at HM/FM interfaces should be minimized to advance efficient SOT devices through atomic layer passivation of the HM/FM interface or other means.

机译：尽管付出了巨大的努力，但界面自旋轨道耦合（ISOC）是否以及如何影响跨重金属（HM）-铁磁体（FM）界面的自旋输运仍未解决。在这里，我们报告了确凿的实验证据，表明HM / FM接口处的ISOC是“自旋内存丢失”的主要机制。 ISOC的增加通过线性方式降低了HM中产生的自旋电流的界面的自旋透明性，从而以线性方式显着降低了施加在FM层上的类似阻尼的自旋轨道转矩（SOT）。此外，类似场的SOT也由HM的自旋霍尔贡献控制，并随着ISOC的增加而减小。这项工作表明，应该通过HM / FM接口的原子层钝化或其他方式来最小化HM / FM接口的ISOC，以提高高效的SOT设备。

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《Physical review letters》 |2019年第7期|077201.1-077201.6|共6页
作者
Zhu Lijun; Ralph D. C.; Buhrman R. A.;
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Cornell Univ, Ithaca, NY 14850 USA;

Cornell Univ, Ithaca, NY 14850 USA|Kavli Inst Cornell, Ithaca, NY 14853 USA;

Cornell Univ, Ithaca, NY 14850 USA;

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Spin-Orbit Torques in Heavy-Metal-Ferromagnet Bilayers with Varying Strengths of Interfacial Spin-Orbit Coupling

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