Hyperbolic Metamaterials: From Dispersion Manipulation to Application

TL;DR

This paper reviews hyperbolic metamaterials, focusing on their dispersion properties, physical principles, and diverse applications like superlenses, sensors, and energy transfer, providing a comprehensive tutorial for newcomers.

Contribution

It offers a detailed introduction to HMMs, discussing dispersion manipulation, theoretical methods, experimental platforms, and potential applications, serving as a foundational tutorial.

Findings

HMMs support high-k modes and enhanced photonic density of states.

HMMs enable applications like hyper-lenses and subwavelength lasers.

The paper provides theoretical and experimental insights into HMMs.

Abstract

Manipulating the property of iso-frequency contour (IFC) will provide a powerful control for the interaction between light and matter. Importantly, hyperbolic metamaterials (HMMs), a class of artificial anisotropic materials with hyperbolic IFC have been intensively investigated. Because of the open dispersion curves, HMMs support propagating high-k modes and possess enhanced photonic density of states. As a result, HMMs can be utilized to realize hyper-lens breaking the diffraction limit, meta-cavity laser with subwavelength scale, high sensitivity sensor, long-range energy transfer and so on. In order to make it easier for people who are about to enter this burgeoning and rapidly developing research field, this tutorial article not only introduces the basic physical properties of HMMs, but also discusses the dispersion manipulation of HMMs and HMM-based structures such as hypercrystals. The theoretical methods and experimental platforms are given in this tutorial. Finally, some potential applications associated with hyperbolic dispersion are also introduced