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Fundamentals and Applications of Nanophotonics

Forfatter: info mangler
Bog
  • Format
  • Bog, hardback
  • Engelsk

Beskrivelse

Fundamentals and Applications of Nanophotonics includes a comprehensive discussion of the field of nanophotonics, including key enabling technologies that have the potential to drive economic growth and impact numerous application domains such as ICT, the environment, healthcare, military, transport, manufacturing, and energy. This book gives readers the theoretical underpinnings needed to understand the latest advances in the field. After an introduction to the area, chapters two and three cover the essential topics of electrodynamics, quantum mechanics, and computation as they relate to nanophotonics. Subsequent chapters explore materials for nanophotonics, including nanoparticles, photonic crystals, nanosilicon, nanocarbon, III-V, and II-VI semiconductors. In addition, fabrication and characterization techniques are addressed, along with the importance of plasmonics, and the applications of nanophotonics in devices such as lasers, LEDs, and photodetectors.

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Detaljer
  • SprogEngelsk
  • Sidetal426
  • Udgivelsesdato19-01-2016
  • ISBN139781782424642
  • Forlag Woodhead Publishing Ltd
  • FormatHardback
Størrelse og vægt
  • Vægt570 g
  • coffee cup img
    10 cm
    book img
    15,2 cm
    22,9 cm

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    Dispersion Magnetism Materials Metals Nanoparticles. Nonlinear optics Optoelectronic devices Characterization Etching Lithography Thin films Semiconductors Electron optics Metamaterials Pauli exclusion principle Photonic crystals Graphene Fabrication Atomic orbitals Carbon nanotubes Plasmonics Résolution Boundary conditions Reciprocal Lattice Surface Plasmons Hydrogen atom Constitutive relations Surface Enhanced Raman Scattering Scanning electron microscope Surface Plasmon-Polaritons Quantum Cascade Laser Hyperbolic Metamaterials Stimulated emission Atomic force microscope Energy Density Hydrodynamic Model Buckyballs Chemical Bonding Maxwell's equations Quantum Cascade Lasers Quantum-mechanics Optical microscope Tight-Binding Model Cloaking Metasurfaces Quantum well lasers Artificial mixtures Bianisotropy aufbau principle Depth of focus Brillouin Zone carbon allotropes Electronic and optical density of states Drude Model Effective medium Electronic band structure Energy and momentum refraction Fermi Level hyperlens Hund's rule Direct and indirect band gaps Hydridized orbitals Lattice matching Lorentz model Nanocircuits Lattice structure Localized surface plasmons Nonlocalities Near-field scanning optical microscope Nonlinear Lorentz�Duffing oscillator Perfect absorber periodic table Numerical shooting method Quantum well devices Poynting's theorem Phase locking Quantum well infrared photodetectors Quasi-static approximation scanning tunneling microscope Rectennas Second and third harmonic generation Spontaneous Emission transmission electron microscope Kramers�Kronig relations Nonlinear optics at surfaces Quasi-static Limit Negative Index Scanning probe techniques Valence and core electrons Superlens Top-down and Bottom-up Approaches Wigner-Seitz Unit Cell
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