Abstract 2D optics is gradually emerging as a frontier in modern optics. Plasmons in
graphene provide a prominent platform for 2D optics in which the light is squeezed into …

Terahertz radiation refers to a broad electromagnetic spectrum range between microwave
and infrared waves, which is also known as the terahertz gap due to inadequate materials …

Metasurfaces, two-dimensional equivalents of metamaterials, are engineered surfaces
consisting of deep subwavelength features that have full control of the electromagnetic …

In this paper, we propose and demonstrate a switchable terahertz metamaterial absorber
with broadband and multi-band absorption based on a simple configuration of graphene …

A novel terahertz plasmon induced transparency (PIT) metamaterial structure consisting of
single-layered graphene microstructures was proposed and numerically studied in this …

Spaser is an acronym for surface plasmon amplification by stimulated emission of radiation.
A spaser is effectively a nanoscale laser with subwavelength dimensions and a low-Q …

Two-dimensional chirality induced polarization conversion and asymmetric transmission
have great potential for polarization applications. We propose graphene-based planar chiral …

Recently, chalcogenide phase‐change materials (PCMs) photonics have become an
emerging research field because the optical properties of the PCMs undergo a dramatic …

Graphene has drawn considerable attention due to its intriguing properties in photonics and
optoelectronics. However, its interaction with light is normally rather weak. Meta-surfaces …

In this paper, using a graphene-based metasurface, we demonstrate a unique design to
develop a highly efficient, broadband, mid-infrared cross-polarization converter. The …