All-Dielectric Rod-Type Metamaterials at Optical Frequencies

K. Vynck; D. Felbacq; E. Centeno; A. I. Cabuz; D. Cassagne; B.; Guizal

arXiv:0805.0251·physics.optics·November 13, 2009

All-Dielectric Rod-Type Metamaterials at Optical Frequencies

K. Vynck, D. Felbacq, E. Centeno, A. I. Cabuz, D. Cassagne, B., Guizal

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TL;DR

This paper theoretically investigates all-dielectric rod-type metamaterials at optical frequencies, deriving their electromagnetic properties and confirming their potential to exhibit left-handed behavior using scalable silicon rods.

Contribution

It provides an analytical framework for understanding the optical properties of dielectric rod metamaterials and demonstrates their left-handed behavior at optical frequencies.

Findings

01

Dipole moments derived analytically in the long-wavelength limit.

02

Effective permittivity and permeability calculated via homogenization.

03

Confirmation of left-handed behavior at optical frequencies.

Abstract

Light propagation in all-dielectric rod-type metamaterials is studied theoretically. The electric and magnetic dipole moments of the rods are derived analytically in the long-wavelength limit. The effective permittivity and permeability of a square lattice of rods are calculated by homogenizing the corresponding array of dipoles. The role of dipole resonances in the optical properties of the rod array is interpreted. This structure is found to exhibit a true left-handed behavior, confirming previous experiments [L. Peng \textit{et al.}, Phys. Rev. Lett. \textbf{98}, 157403 (2007)]. A scaling analysis shows that this effect holds at optical frequencies and can be obtained by using rods made, for example, of silicon.

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