Splitting of magnetic dipole modes in anisotropic TiO2 micro-spheres

Monocrystalline titanium dioxide (TiO2) micro‐spheres support two orthogonal magnetic dipole modes at terahertz (THz) frequencies due to strong dielectric anisotropy. For the first time, we experimentally detected the splitting of the first Mie mode in spheres of radii 10−20μm through near‐field tim...

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Published in:Laser & photonics reviews 2016-07, Vol.10 (4), p.681-687
Main Authors: Khromova, Irina, Kužel, Petr, Brener, Igal, Reno, John L., Chung Seu, U-Chan, Elissalde, Catherine, Maglione, Mario, Mounaix, Patrick, Mitrofanov, Oleg
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Language:English
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Chemical Sciences
dielectric metamaterials
magnetic dipole
Material chemistry
Mie scattering
Terahertz spectroscopy
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container_title Laser & photonics reviews
container_volume 10
creator Khromova, Irina
Kužel, Petr
Brener, Igal
Reno, John L.
Chung Seu, U-Chan
Elissalde, Catherine
Maglione, Mario
Mounaix, Patrick
Mitrofanov, Oleg
description Monocrystalline titanium dioxide (TiO2) micro‐spheres support two orthogonal magnetic dipole modes at terahertz (THz) frequencies due to strong dielectric anisotropy. For the first time, we experimentally detected the splitting of the first Mie mode in spheres of radii 10−20μm through near‐field time‐domain THz spectroscopy. By fitting the Fano lineshape model to the experimentally obtained spectra of the electric field detected by the sub‐wavelength aperture probe, we found that the magnetic dipole resonances in TiO2 spheres have narrow linewidths of only tens of gigahertz. Anisotropic TiO2 micro‐resonators can be used to enhance the interplay of magnetic and electric dipole resonances in the emerging THz all‐dielectric metamaterial technology. Strong dielectric anisotropy at terahertz (THz) frequencies splits the Mie magnetic dipole mode in monocrystalline titanium dioxide (TiO2) micro‐spheres. The splitting is experimentally confirmed using near‐field THz time‐domain spectroscopy. The resonances correspond to orthogonal magnetic dipole modes with narrow linewidths of only tens of gigahertz. The anisotropy of TiO2 can be exploited in the emerging THz all‐dielectric metamaterial technology.
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subjects Chemical Sciences
dielectric metamaterials
magnetic dipole
Material chemistry
Mie scattering
Terahertz spectroscopy
title Splitting of magnetic dipole modes in anisotropic TiO2 micro-spheres
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