Plasmon in graphene possesses many unique properties. It originates from the collective
motion of massless Dirac fermions, and the carrier density dependence is distinctively …

The collective oscillations of charge density (plasmons) in conductive solids are basic
excitations that determine the dynamic response of the system. In infinite two-dimensional …

In recent years, we have seen a rapid progress in the field of graphene plasmonics,
motivated by graphene's unique electrical and optical properties, tunability, long-lived …

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 …

Plasmon is the quantum of the collective oscillation of electrons. How plasmon loses its
energy (or damping) plays a pivotal role in plasmonic science and technology. Graphene …

Plasmonic materials provide electric-field localization and light confinement at
subwavelength scales due to strong light-matter interaction around resonance frequencies …

Metamaterials and plasmonics are powerful tools for unconventional manipulation and
harnessing of light. Metamaterials can be engineered to possess intriguing properties …

A single graphene sheet, when subjected to a perpendicular static magnetic field, provides a
Faraday rotation that, per atomic layer, greatly surpasses that of any other known material. In …

The excitation of terahertz plasmon modes in a graphene rectangle by normally incident
linearly polarized electromagnetic wave has been theoretically studied. The complete …

We demonstrate that the introduction of a defect in the form of an electron density step into a
two-dimensional electron system (2DES) locally rectifies the alternating potential of plasma …