Carbon-Based Nanoelectromagnetics Nanophotonics Series
Coordonnateurs : Maffucci Antonio, Maksimenko Sergey, Svirko Yuri
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?.
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
Materials scientists and electrical engineers who are looking
Sergey Maksimenko is Professor at and Director of the Institute for Nuclear Problems, Belarusian State University, Minsk, Belarus. His main research focuses on the electromagnetic properties of different forms of nanocarbon including carbon nanotubes and graphene, and the design and development of nano-carbon based electromagnetic materials for terahertz and microwave applications.
Yuri P. Svirko is Professor at the Institute of Photonics, University of Eastern Finland. His research interests concern nonlinear optics, carbon nanomaterials and plasmonics. Prof Svirko is a co-author of about 190 publications in peer-reviewed journals and two research monographs.
- Presents a one-stop resource that explores the emerging field of nanoelectromagnetics
- Focuses on modeling, simulation, analysis, design and characterization, with an emphasis on applications of nanoelectromagnetics
- Explores the optical properties and applications of a range of carbon-based nanomaterials
Date de parution : 06-2019
Ouvrage de 270 p.
19x23.3 cm
Thèmes de Carbon-Based Nanoelectromagnetics :
Mots-clés :
2-D material; 2-D materials; Absorber; Absorption; Anisotropic plasmons; Biosensing; Black phosphorus; Broadband absorber; Carbon foam; Carbon nanotube; Carbon nanotubes; Carbon thin film; Chemically doped graphene; Chiral plasmons; Cloaking technology; Detector; Effective boundary conditions; Electrically tunable graphene; Electromagnetic waves; Electromagnetism; Equivalent single layer shielding effectiveness; Geometric resonance; Graphene; Graphene plasmonics; Graphene-based multilayer shield; Guided propagation; Hyperbolic plasmons; Integral equation technique; Interband transitions; Light-matter interaction; Metamaterials; Molybdenum disulfide; Momentum alignment; Nanoantennae; Nanodiamond; Nanoelectromagnetic compatibility; Nanoelectromagnetics; Nanointerconnects; Nanoribbons; Nanotubes; Nonlinear scattering; Passive component; Plasmons; Purcell effect; Pyrolytic carbon; Radiated propagation; Saturable absorption; Shielding; Surface noise current; Surface plasmon; Terahertz; Terahertz frequency range; Thermal radiation; Third-order nonlinear optical phenomena; THz waves; Z-scan technique