Carbon-Based Nanoelectromagnetics provides detailed insights into the electromagnetic interactions of carbon-based nanostructured materials such as graphene and carbon nanotubes. Chapters within the book offer a comprehensive overview on this discipline, starting with an introduction to the field-matter interaction, its features, and finally, its applications in microwave, THz and optical frequency ranges. Electromagnetics at the nanoscale level has become a major research area in recent years as the synthesis of a variety of carbon-based nanostructures has progressed dramatically, thus opening the era of nanoelectronics and nanophotonics.
To meet the challenges of these new fields, a thorough knowledge is required of the peculiar properties of the electromagnetic field. The novel behavior of the electromagnetic fields interacting with nano-sized elements and nano-structured has motivated the birth of this new research discipline, 'Nanoelectromagnetics'.
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Table of Contents
1. Electrodynamics of carbon nanotubes 2. Graphene nanoelectromagnetics: From radio frequency, terahertz to mid-infrared 3. Optical limiting and saturable absorption in nanodiamond suspensions 4. Interband transitions in narrow-gap carbon nanotubes and graphene nanoribbons 5. Chiral and hyperbolic plasmons in novel 2-D materials 6. Guided and radiated electromagnetic propagation from carbon-based nanointerconnects and nanoantennae 7. Graphene on epsilon-near-zero metamaterials as perfect electromagnetic absorber 8. Electromagnetics of carbon: Nano versus micro 9. Electromagnetic modeling and EMC performances of graphene-based micro-/nanostructures
