Vapor-deposited thin films with negative refractive index in the visible regime

TL;DR

This paper demonstrates the creation of vapor-deposited thin films with negative refractive index in the visible spectrum, using tilted silver nanorods, promising scalable production of negative-index metamaterials.

Contribution

It introduces a novel vapor deposition method to produce negative-index metamaterials using tilted nanorods, enabling large-scale fabrication in the visible regime.

Findings

Negative real refractive index achieved in visible spectrum

Vapor deposition technique used for nanorod fabrication

Potential for large-scale production of metamaterials

Abstract

Metamaterials are artificial composite materials that, by virtue of their microstructure, exhibit properties not exhibited by their component materials. Much excitement has been generated by negatively refracting metamaterials, typically consisting of coupled, metallic, subwavelength elements that simulate electric and magnetic dipoles, because of their unusual ability to manipulate visible light, infrared waves and microwaves. In such a metamaterial, an electromagnetic wave propagates so that the direction of its energy flow is opposed to its phase velocity, a condition captured by the real part of the refractive index being negative. Here we show that a thin film comprising parallel tilted nanorods deposited by directing silver vapor obliquely towards a large-area substrate displays a negative real refractive index in the visible regime. Since vapor deposition is a very well-established technique to deposit thin films in the photonics industry, our result is promising for large-scale production of negatively refracting metamaterials