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|a 934770871
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|a 9781782424871
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|a UAMI
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|a Fundamentals and applications of nanophotonics /
|c edited by Joseph W. Haus.
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|a Waltham, MA :
|b Woodhead Publishing,
|c [2016]
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|c Ã2016
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|a 1 online resource
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|a Woodhead publishing series in electronic and optical materials ;
|v number 85
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|a Online resource; title from PDF title page (EBSCO, viewed January 14, 2016)
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|a Includes index.
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|a 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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|a Front Cover; Related titles; Fundamentals and Applications of Nanophotonics; Copyright; Contents; List of contributors; Woodhead Publishing Series in Electronic and Optical Materials; Preface; 1 -- Introduction to nanophotonics; 1.1 Introduction; 1.2 Materials; 1.3 Fabrication and characterization; 1.4 Devices; Further reading; 2 -- Electrodynamics for nanophotonics; 2.1 Introduction; 2.2 Maxwell's equations; 2.2.1 Boundary conditions; 2.2.2 Constitutive relations; 2.3 Microscopic dynamical models; 2.4 Wave equations; 2.4.1 Plane-wave solutions; 2.4.2 Conservation of energy
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|a 3.2 Computational methods3.2.1 Numerical shooting method; 3.2.1.1 Numerical example-finite potential well; 3.2.1.2 Numerical example-two coupled wells; 3.2.1.3 Numerical example-coupled wells with an applied electric field; 3.2.1.4 Numerical example-10-coupled wells; 3.2.2 Additional notes on the numerical shooting method; 3.3 Quantum tunneling across barriers; 3.3.1 Tunneling across a single barrier; 3.3.1.1 Numerical example-tunneling across a single barrier; 3.3.2 Numerical shooting method for tunneling problems
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|a 3.6.1.1 Numerical example of InP/In0.53Ga0.47As/InP quantum well laser3.6.2 Quantum well infrared photodetectors; 3.6.3 Quantum cascade lasers; Problems; Further reading; 4 -- Materials; 4.1 Introduction; 4.2 Crystal structure; 4.2.1 Periodic lattices; 4.2.2 The reciprocal lattice; 4.2.2.1 Hybridization; 4.3 Metals; 4.4 Semiconductors; 4.4.1 Doping; 4.4.2 Group IV; 4.4.3 Carbon [He]2s22p2; 4.4.4 Diamond; 4.4.5 Graphene; 4.4.6 Carbon nanotubes; 4.4.7 Buckminster fullerenes; 4.4.8 Silicon [Ne]3s23p2; 4.4.9 Compound semiconductors; Problems; Appendices
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|a Knovel
|b ACADEMIC - Optics & Photonics
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|a Nanophotonics.
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|a Nanotechnology.
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|a Nanophotonique.
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|a Nanotechnologie.
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|a TECHNOLOGY & ENGINEERING
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|a Nanophotonics
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|a Nanotechnology
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|a Haus, Joseph W.,
|d 1948-
|e editor.
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|a Woodhead Publishing series in electronic and optical materials ;
|v no. 85.
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