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arxiv: 2006.07943 · v3 · pith:FWNCQ4XBnew · submitted 2020-06-14 · ❄️ cond-mat.mtrl-sci · cond-mat.mes-hall

A new noncollinear ferromagnetic Weyl semimetal with anisotropic anomalous Hall effect

classification ❄️ cond-mat.mtrl-sci cond-mat.mes-hall
keywords weylsymmetrybreakinganisotropicanomalouscealsieffectferromagnetic
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A developing frontier in condensed matter physics is the emergence of novel electromagnetic responses, such as topological and anomalous Hall effect (AHE), in ferromagnetic Weyl semimetals (FM-WSMs). Candidates of FM-WSM are limited to materials that preserve inversion symmetry and generate Weyl crossings by breaking time-reversal symmetry. These materials share three common features: a centrosymmetric lattice, a collinear FM ordering, and a large AHE observed when the field is parallel to the magnetic easy-axis. Here, we present CeAlSi as a new type of FM-WSM, where the Weyl nodes are stabilized by breaking inversion symmetry, but their positions are tuned by breaking time-reversal symmetry. Unlike the other FM-WSMs, CeAlSi has a noncentrosymmetric lattice, a noncollinear FM ordering, and a novel AHE that is anisotropic between the easy- and hard-axes. It also exhibits large FM domains that are promising for both device applications and an interplay between the Weyl nodes and FM domain walls.

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