Description |
1 online resource |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Series |
Micro and Nano Technologies |
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Micro & nano technologies.
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Summary |
Near-Field Radiative Heat Transfer across Nanometer Vacuum Gaps provides an in-depth description of fundamentals and application of near-field radiative heat transfer. When the vacuum gap between two media is on the order of nanometers, heat transfer can exceed that between blackbodies. This book investigates near-field heat transfer between different materials and geometries highlighting interplay between optics, material thermophysical properties and electromagnetism. The book also highlights the application of near-field thermal radiation in the field of power generation, imaging, and thermal systems as an analog of electronic devices. |
Note |
Includes index. |
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Online resource; title from PDF title page (ScienceDirect, viewed June 30, 2016). |
Bibliography |
Includes bibliographical references and index. |
Contents |
Front Cover; Near-Field Radiative Heat Transfer across Nanometer Vacuum Gaps; Dedication; Near-Field Radiative Heat Transfer across NanometerVacuum Gaps; Copyright; Contents; Preface; 1 -- Introduction and Fundamental Concepts; 2 -- Numerical Solution of Near-Field Thermal Radiation; 3 -- Dielectric Function and Surface Waves in Near-Field Radiation; 4 -- Near-Field Heat Transfer Between Parallel Media; 5 -- Near-Field Heat Transfer Between Nonparallel Media and Nanostructures; 6 -- Measurement of Thermal Radiation; 7 -- Applications of Near-Field Thermal Radiation; Index; Back Cover |
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1.1 heat transfer fundamentals1.2 entropy flow and generation in radiative transfer between surfaces; 1.3 near-field radiative heat transfer; 1.4 entropy generation in near-field thermal radiation; 1.5 conclusion; references; 2.1 scattering matrix method; 2.2 finite difference time domain; 2.3 wiener chaos expansion method; 2.4 fluctuating-surface current formulation; 2.5 thermal discrete dipole approximation (t-dda); 2.6 conclusion; references; 3.1 dielectric function; 3.2 evanescent waves and surface polaritons; 3.3 conclusion; references; 4.1 semi-infinite parallel media |
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4.2 maximum near-field heat transfer between parallel plates at nanometer distances4.3 penetration depth and energy streamlines in near-field radiative energy transfer; 4.4 effect of spatial dispersion on near-field heat transfer; 4.5 near-field heat transfer between metamaterials; 4.6 nanoscale radiation in thin films; 4.7 conclusions; references; 5.1 near-field heat transfer between two spheres; 5.2 near-field heat transfer between nanoparticles; 5.3 near-field radiative transfer between a particle and plane surface; 5.4 near-field heat transfer between two cylindrical objects |
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5.5 near-field heat transfer between nanostructures5.6 concluding remarks; references; 6.1 plate-plate configuration; 6.2 tip-plate configuration; 6.3 sphere-plate configuration; 6.4 near-field measurements in nanostructures; 6.5 concluding remarks; references; 7.1 near-field thermophotovoltaics; 7.2 near-field thermal rectification; 7.3 thermal switch; 7.4 near-field thermal transistor; 7.5 near-field thermal memory; 7.6 heat-assisted magnetic recording and radiative cooling; 7.7 near-field imaging and fabrication; 7.8 conclusion; references; a; b; c; d; e; f; g; h; i; k; l; m; n; p; q; r; s |
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TU; V; W; Z; 1.1.1 Conduction; 1.1.2 Convection; 1.1.3 Radiation; 1.2.1 Entropy Analysis Applied to Special Cases; 1.3.1 Maxwell's Equations; 1.3.2 Solution of Maxwell's Equations; 1.3.3 Fluctuation Dissipation Theorem; 1.3.4 Density of States in Near-Field Radiation; 2.1.1 Dyadic Green's Function for Multilayered Media; 2.1.2 Emitting Film; 2.1.3 Semi-infinite Half Space; 2.5.1 Near-Field Heat Transfer; 3.1.1 Drude Model; 3.1.2 Lorentz Model; 3.1.3 Effective Medium Theory; 3.1.4 Phase Change Materials; 3.1.5 Hyperbolic Metamaterials; 3.2.1 Evanescent Waves; 3.2.2 Surface Polaritons |
Subject |
Heat -- Transmission.
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Chaleur -- Transmission.
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heat transmission.
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TECHNOLOGY & ENGINEERING -- Mechanical.
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Heat -- Transmission
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Other Form: |
Print version: Basu, Soumyadipta. Near-Field Radiative Heat Transfer across Nanometer Vacuum Gaps : Fundamentals and Applications. : Elsevier Science, ©2016 9780323429948 |
ISBN |
9780323429764 |
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0323429769 |
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9780323429948 (print) |
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0323429947 |
Standard No. |
AU@ 000058756264 |
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AU@ 000058965889 |
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AU@ 000064170298 |
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CHBIS 010796329 |
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CHNEW 001013634 |
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CHVBK 403940605 |
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DEBSZ 482471697 |
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GBVCP 879397195 |
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UKMGB 017975383 |
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AU@ 000068473562 |
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