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Giant intrinsic spin Hall effect in the TaAs family of Weyl semimetals

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arxiv 1604.07167 v2 pith:FKEU5HYU submitted 2016-04-25 cond-mat.mtrl-sci cond-mat.mes-hall

Giant intrinsic spin Hall effect in the TaAs family of Weyl semimetals

classification cond-mat.mtrl-sci cond-mat.mes-hall
keywords spinhallsemimetalstopologicalweylbulkeffectlarge
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Since their discovery, topological insulators have been expected to be ideal spintronic materials owing to the spin currents carried by surface states with spin--momentum locking. However, the bulk doping problem remains an obstacle that hinders such application. In this work, we predict that a newly discovered family of topological materials, the Weyl semimetals, exhibits large intrinsic spin Hall effects that can be utilized to generate and detect spin currents. Our $ab~initio$ calculations reveal a large spin Hall conductivity that is comparable to that of $4d$ and $5d$ transition metals. The spin Hall effect originates intrinsically from the bulk band structure of Weyl semimetals, which exhibit a large Berry curvature and spin--orbit coupling, so the bulk carrier problem in the topological insulators is naturally avoided. Our work not only paves the way for employing Weyl semimetals in spintronics, but also proposes a new guideline for searching for the spin Hall effect in various topological materials.

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