Multipolar theory of bianisotropic response of meta-atoms

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Maria Poleva
  • Kristina Frizyuk
  • Kseniia Baryshnikova
  • Andrey Evlyukhin
  • Mihail Petrov
  • Andrey Bogdanov

Externe Organisationen

  • Deutscher Akademischer Austauschdienst e. V. (DAAD)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
AufsatznummerL041304
FachzeitschriftPhysical Review B
Jahrgang107
Ausgabenummer4
PublikationsstatusVeröffentlicht - 31 Jan. 2023
Extern publiziertJa

Abstract

The bianisotropy of meta-atoms is usually associated with their nonlocal response and mutual coupling between electric and magnetic dipole moments induced by an incident field. In this Letter, we generalize the theory of bianisotropy beyond the dipole response to cases of arbitrary high-order multipole resonances. We demonstrate that bianisotropy is fully connected to the geometrical structure of meta-atoms and caused exclusively by the absence of their inversion symmetry, while the strength of the bianisotropy response grows normally with the size of a meta-atom. Applying a group theory analysis, we reveal the explicit criteria when the dipole approximation is enough for the correct description of bianisotropy and when accounting for higher-order multipoles is required. We consider a triangular prism as an illustrative example of a bianisotropic particle and show how accounting for higher-order multipoles prevents the violation of Onsager-Casimir conditions for kinetic coefficients appearing in the dipole approximation. The developed theory is an essential step toward a deeper insight into the scattering properties of nanoantennas and meta-atoms.

ASJC Scopus Sachgebiete

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Multipolar theory of bianisotropic response of meta-atoms. / Poleva, Maria; Frizyuk, Kristina; Baryshnikova, Kseniia et al.
in: Physical Review B, Jahrgang 107, Nr. 4, L041304, 31.01.2023.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Poleva, M, Frizyuk, K, Baryshnikova, K, Evlyukhin, A, Petrov, M & Bogdanov, A 2023, 'Multipolar theory of bianisotropic response of meta-atoms', Physical Review B, Jg. 107, Nr. 4, L041304. https://doi.org/10.1103/PhysRevB.107.L041304
Poleva, M., Frizyuk, K., Baryshnikova, K., Evlyukhin, A., Petrov, M., & Bogdanov, A. (2023). Multipolar theory of bianisotropic response of meta-atoms. Physical Review B, 107(4), Artikel L041304. https://doi.org/10.1103/PhysRevB.107.L041304
Poleva M, Frizyuk K, Baryshnikova K, Evlyukhin A, Petrov M, Bogdanov A. Multipolar theory of bianisotropic response of meta-atoms. Physical Review B. 2023 Jan 31;107(4):L041304. doi: 10.1103/PhysRevB.107.L041304
Poleva, Maria ; Frizyuk, Kristina ; Baryshnikova, Kseniia et al. / Multipolar theory of bianisotropic response of meta-atoms. in: Physical Review B. 2023 ; Jahrgang 107, Nr. 4.
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AU - Poleva, Maria

AU - Frizyuk, Kristina

AU - Baryshnikova, Kseniia

AU - Evlyukhin, Andrey

AU - Petrov, Mihail

AU - Bogdanov, Andrey

N1 - Publisher Copyright: © 2023 American Physical Society.

PY - 2023/1/31

Y1 - 2023/1/31

N2 - The bianisotropy of meta-atoms is usually associated with their nonlocal response and mutual coupling between electric and magnetic dipole moments induced by an incident field. In this Letter, we generalize the theory of bianisotropy beyond the dipole response to cases of arbitrary high-order multipole resonances. We demonstrate that bianisotropy is fully connected to the geometrical structure of meta-atoms and caused exclusively by the absence of their inversion symmetry, while the strength of the bianisotropy response grows normally with the size of a meta-atom. Applying a group theory analysis, we reveal the explicit criteria when the dipole approximation is enough for the correct description of bianisotropy and when accounting for higher-order multipoles is required. We consider a triangular prism as an illustrative example of a bianisotropic particle and show how accounting for higher-order multipoles prevents the violation of Onsager-Casimir conditions for kinetic coefficients appearing in the dipole approximation. The developed theory is an essential step toward a deeper insight into the scattering properties of nanoantennas and meta-atoms.

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