Owing to their atomic layer thickness, strong light–material interaction, high nonlinearity,
broadband optical response, fast relaxation, controllable optoelectronic properties, and high …

Spectroscopic studies of electronic phenomena in graphene are reviewed. A variety of
methods and techniques are surveyed, from quasiparticle spectroscopies (tunneling …

This book is meant as an introduction to graphene plasmonics and aims at the advanced
undergraduate and graduate students entering the field of plasmonics in graphene. In it …

Terahertz modulators with high tunability of both intensity and phase are essential for
effective control of electromagnetic properties. Due to the underlying physics behind existing …

Dual plasmon-induced transparency (PIT) and plasmon-induced absorption (PIA) are
simultaneously achieved in an integrated metamaterial composed of single layer of …

A monolayer terahertz graphene metasurface is designed to achieve tunable plasmon-
induced transparency (PIT) effect in two perpendicular polarization directions based on …

Terahertz (THz) technology has attracted great attention in the past few decades for its
unique applications in various fields, including spectroscopy, noninvasive detection …

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

A monolayer graphene metamaterial comprising four graphene strips and four graphene
blocks is proposed to produce triple plasmon-induced transparency (PIT) by the interaction …

Recent intense electrical and optical studies of graphene have pushed the material to the
forefront of optoelectronic research. Of particular interest is the few terahertz (THz) frequency …