One of the most exciting applications of metaparticles and metasurfaces consists in the magnetic light excitation. However, the principal limitation is due to parasitic extra multipoles of electric family excited in magnetic dipole meta-particles characterized by a radiating nature and corresponding radiating losses. In this paper, we propose the “ideal magnetic dipole” with suppressed additional multipoles except of magnetic dipole moment in the scattered field from a cylindrical object by using mantle cloaking based on metasurface and on anapole concept. The considered metasurface consists of a periodic width modulated microstrip line, with a sinusoidally shaped profile unit cell printed on a dielectric substrate.

Mantle cloaking due to ideal magnetic dipole scattering / Cappello, B.; Ospanova, A. K.; Matekovits, L.; Basharin, A. A.. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - 10:1(2020), p. 2413. [10.1038/s41598-020-59291-x]

Mantle cloaking due to ideal magnetic dipole scattering

Cappello B.;Matekovits L.;
2020

Abstract

One of the most exciting applications of metaparticles and metasurfaces consists in the magnetic light excitation. However, the principal limitation is due to parasitic extra multipoles of electric family excited in magnetic dipole meta-particles characterized by a radiating nature and corresponding radiating losses. In this paper, we propose the “ideal magnetic dipole” with suppressed additional multipoles except of magnetic dipole moment in the scattered field from a cylindrical object by using mantle cloaking based on metasurface and on anapole concept. The considered metasurface consists of a periodic width modulated microstrip line, with a sinusoidally shaped profile unit cell printed on a dielectric substrate.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2802472