Terahertz (THz) communications with a frequency band 0.1− 10 THz are envisioned as a
promising solution to future high-speed wireless communication. Although with tens of …

Terahertz (THz) communications with a frequency band 0.1–10 THz are envisioned as a
promising solution to future high-speed wireless communication. Although with tens of …

Plasmonics is one of the most used domains for applications to optical devices, biological
and chemical sensing, and non-linear optics, for instance. Indeed, plasmonics enables …

In this paper, tunable dual plasmon-induced transparency (PIT) is achieved by using a
monolayer graphene metamaterial in the terahertz region, which consists of two graphene …

We investigate plasmon-induced transparency (PIT) and sensing characteristics in a simple
graphene metamaterial through the finite-different time-domain (FDTD) simulation. The …

A graphene metamaterial based on polarization-insensitive plasmon-induced transparency
(PIT) in the terahertz region is theoretically presented. The graphene metamaterial …

Graphene terahertz (THz) devices have emerged as a pivotal player in the THz area, and
drop-on-demand (DOD) printing technology enables cost-effective patterning of THz …

In this paper, a 3 bit encoder was proposed which was based on double plasmon-induced
transparency (PIT) effect. This structure consists of the bright-bright mode and realizes a …

We studied the Classical electromagnetically induced transparency (Cl-EIT) of a non-
centrosymmetric metamaterial structure based on Dirac semimetal films (DSFs), which is …

Tunable plasmon included transparency (PIT) and multispectral transparency in the THz
region have been achieved with graphene metamaterials, which consist of four graphene …