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Thin Film Nanophotonics
Conclusions from the Third International Workshop on Thin Films for Electronics, Electro-Optics, Energy and Sensors (TFE3S)
Highlights how the properties of nanoscale thin films make them effective for a range of photonic applications
Guru Subramanyam (Edited by), Partha P. Banerjee (Edited by), Karl S. Gudmundsson (Edited by), Akhlesh Lakhtakia (Edited by)
9780128220856, Elsevier Science
Paperback, published 27 August 2021
288 pages
23.4 x 19 x 1.9 cm, 1 kg
Thin Film Nanophotonics: Conclusions from the Third International Workshop on Thin Films for Electronics, Electro-Optics, Energy and Sensors (TFE3S) provides up-to-date coverage of the properties and photonic applications of nanostructured thin films, including discussions on optical waveguides, photonic lattices for wideband reflectors, polarizers, bandpass filters, meta surfaces, plasmonic resonance sensors, smart windows, optical switches, photovoltaics, and many more. This is an important reference source for materials scientists, engineers and physicists working in the areas of nanomaterials and photonics. New thin film applications such as thin-film topological insulators and 2D materials are gaining attention and growing exponentially, hence this book is an ideal reference on how engineered thin films for various nano-photonics applications present exponential growth in a wide array of areas.
Part I Basics 1. Optical propagation through metamaterial structures with multilayered metallo-dielectrics: Hyperbolic dispersion and transmission filters 2. Spectral characteristics of a thin lithographic tri-layer chiral slab resonator 3. Structural, electrical, and electromagnetic properties of nanostructured vanadium dioxide thin films 4. Photoactive ZnO nanostructured thin films modified with TiO2, and reduced graphene oxide 5. Orthotropic friction at the edges and interior of graphene and graphene fluoride and frictional anisotropy of graphene at the nanoscale Part II Applications 6. Optical manipulation of nanoparticles with structured light 7. Design and nanophotonic thin film devices using phase change materials 8. Chromogenically tunable thin film photonic crystals 9. Thin-film solar cells with graded-bandgap photon-absorbing layer
Subject Areas: Materials science [TGM]
