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arxiv: 2401.06282 · v1 · pith:ZHFKWX5D · submitted 2024-01-11 · cond-mat.mes-hall · cond-mat.str-el· hep-th

Magnetic control of Weyl nodes and wave packets in three-dimensional warped semimetals

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classification cond-mat.mes-hall cond-mat.str-elhep-th
keywords topologicalweylwavemagneticpacketphasethree-dimensionaltransitions
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We investigate the topological phase transitions driven by band warping and a transverse magnetic field, for three-dimensional Weyl semimetals. First, we use the Chern number as a mathematical tool to derive the topological phase diagram. Next, we associate each of the topological sectors to a given angular momentum state of a rotating wave packet. Then we show how the position of the Weyl nodes can be manipulated by a transverse external magnetic field that ultimately quenches the wave packet rotation, first partially and then completely, thus resulting in a sequence of field-induced topological phase transitions. Finally, we calculate the current-induced magnetization and the anomalous Hall conductivity of a prototypical warped Weyl material. Both observables reflect the topological transitions associated with the wave packet rotation and can help to identify the elusive 3D quantum anomalous Hall effect in three-dimensional, warped Weyl materials.

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