Anisotropic polaritons in 2D vdW materials

TL;DR

This paper reviews recent advances in the study of anisotropic polaritons in two-dimensional van der Waals materials, highlighting their unique optical properties, real space visualization, and potential for nanophotonic device applications.

Contribution

It provides a comprehensive overview of the fundamental understanding and progress in visualizing in-plane anisotropic polaritons in 2D vdW materials, emphasizing recent breakthroughs.

Findings

Discovery of in-plane hyperbolicity in 2D vdW materials

Real space visualization of anisotropic polaritons

Potential for developing advanced nanophotonic devices

Abstract

Perhaps the most significant progress to the field of infrared optics and nanophotonics has been made through the real space realisation of polaritons in two-dimensional materials that provide maximum light confinement functionalities. The recent breakthrough discovery of in-plane hyperbolicity in the natural van der Waals material has revealed a most exciting optical property which enable an in-plane anisotropic dispersion. Yet, the most intriguing feature of in-plane anisotropic dispersion is the manipulation of polaritons at the nano scale. This development has opened a new window of opportunity in order to develop unique nanophotonic devices with unprecedented controls. This chapter will cover these developments with focus on fundamental understandings and progress of real space visualisation of in-plane anisotropic polaritons in the near-field range. The last section will conclude with the future prospects of this rapidly emerging area.