Magnetic metamaterials at telecommunication and visible frequencies

TL;DR

This paper reports the fabrication and analysis of gold split-ring arrays that exhibit magnetic resonances at telecommunication and visible frequencies, demonstrating negative magnetic permeability and novel higher-order resonances.

Contribution

It introduces a new design of magnetic metamaterials with resonances at optical frequencies, including a higher-order magnetic mode, supported by experimental and theoretical analysis.

Findings

Demonstrated magnetic resonances at 200 THz and 370 THz.

Observed negative magnetic permeability in the structures.

Identified a novel higher-order magnetic resonance.

Abstract

Arrays of gold split-rings with 50-nm minimum feature size and with an LC resonance at 200-THz frequency (1500-nm wavelength) are fabricated. For normal incidence conditions, they exhibit a pronounced fundamental magnetic mode, arising from a coupling via the electric component of the incident light. For oblique incidence, a coupling via the magnetic component is demonstrated as well. Moreover, we identify a novel higher-order magnetic resonance at around 370 THz (800-nm wavelength) that evolves out of the Mie resonance for oblique incidence. Comparison with theory delivers good agreement and also shows that the structures allow for a negative magnetic permeability.