Electromagnetic Waves in Nonlinear Layered Metamaterials, Gyrotropic and Plasma Media

Electromagnetic Waves in Nonlinear Layered Metamaterials, Gyrotropic and Plasma Media Synopsis

The purpose is to give a wide, tutorial-driven, presentation of the theory of wave processes occurring in layered nonlinear metamaterials (MM), gyrotropic and plasma media; to determine the regularities of electromagnetic wave propagation and formation of wave structures; to investigate the new wave structures (solitons etc.) and effects in MM, gyrotropic and plasma media with bulk, surface, resonant, moderate, strong nonlinearities; to study the effective methods of control of wave processes due to the use of inhomogeneous and non-stationary external fields.

This book is aimed at graduates and postgraduates studying physical science and engineering, and can be used for training courses for specialists in meta- and nanophotonics and nanoelectronics.

Key Features

• New types of modern nonlinear metamaterials, such as hyperbolics, are comprehensively described
• Applications for specific developments based on hyperbolic metamaterials are provided
• Important scientific and practical results are described for active systems using graphene-based structures
• The significant impact of higher-order nonlinearity upon the instability of bullets in a nonlinear metamaterial waveguide is demonstrated
• The influence of metamaterials on rogue waves is presented in the kind of detail that will attract many readers