Hopfion-Driven Magnonic Hall Effect and Magnonic Focusing

Carlos Saji; Roberto E. Troncoso; Vagson L. Carvalho-Santos; Dora Altbir; Alvaro S. Nunez

doi:10.1103/PhysRevLett.131.166702

Hopfion-Driven Magnonic Hall Effect and Magnonic Focusing

Carlos Saji, Roberto E. Troncoso, Vagson L. Carvalho-Santos, Dora Altbir, Alvaro S. Nunez

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Hopfions are localized and topologically nontrivial magnetic configurations that have received considerable attention in recent years. In this Letter, we use a micromagnetic approach to analyze the scattering of spin waves (SWs) by magnetic hopfions. Our results evidence that SWs experience an electromagnetic field generated by the hopfion and sharing its topological properties. In addition, SWs propagating along the hopfion symmetry axis are deflected by the magnetic texture, which acts as a convergent or divergent lens, depending on the SWs' propagation direction. Assuming that SWs propagate along the plane perpendicular to the symmetry axis, the scattering is closely related to the Aharonov-Bohm effect, allowing us to identify the magnetic hopfion as a scattering center.

Original language	English
Article number	166702
Journal	Physical Review Letters
Volume	131
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevLett.131.166702
State	Published - 20 Oct 2023
Externally published	Yes

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title = "Hopfion-Driven Magnonic Hall Effect and Magnonic Focusing",

abstract = "Hopfions are localized and topologically nontrivial magnetic configurations that have received considerable attention in recent years. In this Letter, we use a micromagnetic approach to analyze the scattering of spin waves (SWs) by magnetic hopfions. Our results evidence that SWs experience an electromagnetic field generated by the hopfion and sharing its topological properties. In addition, SWs propagating along the hopfion symmetry axis are deflected by the magnetic texture, which acts as a convergent or divergent lens, depending on the SWs' propagation direction. Assuming that SWs propagate along the plane perpendicular to the symmetry axis, the scattering is closely related to the Aharonov-Bohm effect, allowing us to identify the magnetic hopfion as a scattering center.",

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AU - Troncoso, Roberto E.

AU - Carvalho-Santos, Vagson L.

AU - Altbir, Dora

AU - Nunez, Alvaro S.

PY - 2023/10/20

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N2 - Hopfions are localized and topologically nontrivial magnetic configurations that have received considerable attention in recent years. In this Letter, we use a micromagnetic approach to analyze the scattering of spin waves (SWs) by magnetic hopfions. Our results evidence that SWs experience an electromagnetic field generated by the hopfion and sharing its topological properties. In addition, SWs propagating along the hopfion symmetry axis are deflected by the magnetic texture, which acts as a convergent or divergent lens, depending on the SWs' propagation direction. Assuming that SWs propagate along the plane perpendicular to the symmetry axis, the scattering is closely related to the Aharonov-Bohm effect, allowing us to identify the magnetic hopfion as a scattering center.

AB - Hopfions are localized and topologically nontrivial magnetic configurations that have received considerable attention in recent years. In this Letter, we use a micromagnetic approach to analyze the scattering of spin waves (SWs) by magnetic hopfions. Our results evidence that SWs experience an electromagnetic field generated by the hopfion and sharing its topological properties. In addition, SWs propagating along the hopfion symmetry axis are deflected by the magnetic texture, which acts as a convergent or divergent lens, depending on the SWs' propagation direction. Assuming that SWs propagate along the plane perpendicular to the symmetry axis, the scattering is closely related to the Aharonov-Bohm effect, allowing us to identify the magnetic hopfion as a scattering center.

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Hopfion-Driven Magnonic Hall Effect and Magnonic Focusing

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