by Tatjana Gric (ed.)
Publisher: InTech 2018
Number of pages: 235
Plasmonics gives researchers in universities and industries and designers an overview of phenomena enabled by artificially designed metamaterials and their application for plasmonic devices. The purpose of this book is to provide a detailed introduction to the basic modeling approaches and an overview of enabled innovative phenomena.
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by Donald B. Melrose - Springer
Contents: Covariant theory of wave dispersion; Classical plasmadynamics; Quantum field theory; Isotropic quantum plasmas; Magnetized Plasmas; Gyromagnetic processes; Pulsar radio emission; Response of Magnetized Systems; Exotic Quantum Plasmas; etc.
by Allan N. Kaufman, Bruce I. Cohen - arXiv.org
The series of lectures are divided into four major parts: (1) collisionless Vlasov plasmas; (2) nonlinear Vlasov plasmas and miscellaneous topics; (3) plasma collisional and discreteness phenomena; (4) nonuniform plasmas.
by A.P.L. Robinson, et al. - arXiv
We review progress in the theory and simulation of fast electron transport in the context of Fast Ignition. Important aspects of the basic plasma physics, descriptions of the numerical methods, a review of ignition-scale simulations are included.
by Michael Gedalin - Ben-Gurion University
Contents: Basic definitions and parameters; Plasma description; MHD equilibria and waves; MHD discontinuities; Waves in dispersive media; Waves in two-fluid hydrodynamics; Kinetic theory; Micro-instabilities; Nonlinear phenomena; Plasma parameters.