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Tsilipakos, Odysseas
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article
Dynamic anapole in metasurfaces made of sculptured cylinders
Abstract
We present all-dielectric polaritonic metasurfaces consisting of properly sculptured cylinders to sustain the dynamic anapole, i.e., a nonradiating alternating current distribution. One way for the anapole to emerge is by combining modes based on the first and fourth Mie resonances of a cylinder made of high permittivity LiTaO<SUB>3</SUB> for operation in the low THz. The circular cross section of each cylinder varies periodically along its length in a binary way, from small to large, while its overall circular symmetry has to be broken in order to remove parasitic magnetic modes. Small cross sections are the main source of the electric dipole Mie mode, while large cross sections sustain the fourth, mixed toroidal dipole Mie mode. With proper adjustment, the generated electric and toroidal moments interfere destructively producing a nonradiating source, the anapole, the existence of which is attested by a sharp dip in the reflection from the metasurface, due exclusively to electric and toroidal dipoles. Moreover, we show that, by breaking the circular symmetry of each cylinder, a substantial toroidal dipole emerges from the magnetic quadrupole Mie mode, which in combination with the electric dipole also produces the anapole. The sensitivity of the anapole states to the material dissipation losses is examined leading to the conclusion that the proposed metasurfaces offer a scheme for realistically implementing the anapole....