Metamaterial Van Hove Singularity

TL;DR

This paper introduces a photonic analogue of Van Hove singularities in hyperbolic metamaterials, revealing new ways to enhance optical phenomena for applications like sensing and lasing.

Contribution

It demonstrates the existence of Van Hove singularities in hyperbolic metamaterials independent of periodicity, linked to slow light modes, and explores their potential applications.

Findings

VHS manifest in near-field local density of states despite losses

VHS occur due to slow light modes, not periodicity

Potential for quantum, thermal, nano-lasing, and biosensing applications

Abstract

We introduce the photonic analogue of electronic Van Hove singularities (VHS) in artificial media (metamaterials) with hyperbolic dispersion. Unlike photonic and electronic crystals, the VHS in metamaterials is unrelated to the underlying periodicity and occurs due to slow light modes in the structure. We show that the VHS characteristics are manifested in the near-field local density of optical states in spite of the losses, dispersion and finite unit cell size of the hyperbolic metamaterial. Finally we show that this work should lead to quantum, thermal, nano-lasing and biosensing applications of Van Hove singularities in hyperbolic metamaterials achievable by current fabrication technology.