Near Field Radiative Heat Transfer across Nanometer Vacuum Gaps

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. Brings together research in near-field radiative heat transfer in a focused and comprehensive manner, allowing those new to the topic to gain a thorough understanding of the science and how it can be used Offers focused coverage of heat transfer in near-field radiation, which other books do not Outlines the interplay between optics, electromagnetics, basic thermodynamics, and thermophysical properties of materials during near-field heat transfer

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  • Author : Soumyadipta Basu
  • Publisher : William Andrew
  • Pages : 476 pages
  • ISBN : 0323429769
  • Rating : 4/5 from 21 reviews
CLICK HERE TO GET THIS BOOKNear Field Radiative Heat Transfer across Nanometer Vacuum Gaps

Near-Field Radiative Heat Transfer across Nanometer Vacuum Gaps

Near-Field Radiative Heat Transfer across Nanometer Vacuum Gaps
  • Author : Soumyadipta Basu
  • Publisher : William Andrew
  • Release : 30 May 2016
GET THIS BOOKNear-Field Radiative Heat Transfer across Nanometer Vacuum Gaps

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

Thermal Radiation Heat Transfer

Thermal Radiation Heat Transfer
  • Author : John R. Howell,M. Pinar Mengüc,Kyle Daun,Robert Siegel
  • Publisher : CRC Press
  • Release : 10 December 2020
GET THIS BOOKThermal Radiation Heat Transfer

The seventh edition of this classic text outlines the fundamental physical principles of thermal radiation, as well as analytical and numerical techniques for quantifying radiative transfer between surfaces and within participating media. The textbook includes newly expanded sections on surface properties, electromagnetic theory, scattering and absorption of particles, and near-field radiative transfer, and emphasizes the broader connections to thermodynamic principles. Sections on inverse analysis and Monte Carlo methods have been enhanced and updated to reflect current research developments, along with

Handbook of Thermal Science and Engineering

Handbook of Thermal Science and Engineering
  • Author : Anonim
  • Publisher : Springer
  • Release : 18 July 2018
GET THIS BOOKHandbook of Thermal Science and Engineering

This Handbook provides researchers, faculty, design engineers in industrial R&D, and practicing engineers in the field concise treatments of advanced and more-recently established topics in thermal science and engineering, with an important emphasis on micro- and nanosystems, not covered in earlier references on applied thermal science, heat transfer or relevant aspects of mechanical/chemical engineering. Major sections address new developments in heat transfer, transport phenomena, single- and multiphase flows with energy transfer, thermal-bioengineering, thermal radiation, combined mode heat transfer,

Radiative Heat Transfer with Nanowire/nanohole Metamaterials for Thermal Energy Harvesting Applications

Radiative Heat Transfer with Nanowire/nanohole Metamaterials for Thermal Energy Harvesting Applications
  • Author : Jui-Yung Chang
  • Publisher : Unknown Publisher
  • Release : 13 June 2021
GET THIS BOOKRadiative Heat Transfer with Nanowire/nanohole Metamaterials for Thermal Energy Harvesting Applications

Recently, nanostructured metamaterials have attracted lots of attention due to their tunable artificial properties. In particular, nanowire/nanohole based metamaterials capable of large area fabrication have been intensively studied. Most of the studies are only based on the electrical responses of the metamaterials; however, magnetic response is usually neglected since magnetic material does not exist naturally within the visible or infrared range. For the past few years, artificial magnetic response from nanostructure based metamaterials has been proposed. This reveals the

Nano/Microscale Heat Transfer

Nano/Microscale Heat Transfer
  • Author : Z. M. Zhang,Zhuomin Zhang
  • Publisher : McGraw Hill Professional
  • Release : 20 April 2007
GET THIS BOOKNano/Microscale Heat Transfer

A THOROUGH EXPLANATION OF THE METHODOLOGIES USED FOR SOLVING HEAT TRANSFER PROBLEMS IN MICRO- AND NANOSYSTEMS. Written by one of the field's pioneers, this highly practical, focused resource integrates the existing body of traditional knowledge with the most recent breakthroughs to offer the reader a solid foundation as well as working technical skills. THE INFORMATION NEEDED TO ACCOUNT FOR THE SIZE EFFECT WHEN DESIGNING AND ANALYZING SYSTEMS AT THE NANOMETER SCALE, WITH COVERAGE OF Statistical Thermodynamics, Quantum Mechanics, Thermal Properties

Dynamic Control of Radiative Heat Transfer with Tunable Materials for Thermal Management in Both Far and Near Fields

Dynamic Control of Radiative Heat Transfer with Tunable Materials for Thermal Management in Both Far and Near Fields
  • Author : Yue Yang
  • Publisher : Unknown Publisher
  • Release : 13 June 2021
GET THIS BOOKDynamic Control of Radiative Heat Transfer with Tunable Materials for Thermal Management in Both Far and Near Fields

The proposed research mainly focuses on employing tunable materials to achieve dynamic control of radiative heat transfer in both far and near fields for thermal management. Vanadium dioxide (VO2), which undergoes a phase transition from insulator to metal at the temperature of 341 K, is one tunable material being applied. The other one is graphene, whose optical properties can be tuned by chemical potential through external bias or chemical doping. In the far field, a VO2-based metamaterial thermal emitter with

Heat Convection

Heat Convection
  • Author : Latif M. Jiji
  • Publisher : Springer Science & Business Media
  • Release : 09 November 2009
GET THIS BOOKHeat Convection

Jiji's extensive understanding of how students think and learn, what they find difficult, and which elements need to be stressed is integrated in this work. He employs an organization and methodology derived from his experience and presents the material in an easy to follow form, using graphical illustrations and examples for maximum effect. The second, enlarged edition provides the reader with a thorough introduction to external turbulent flows, written by Glen Thorncraft. Additional highlights of note: Illustrative examples are used

Casimir Physics

Casimir Physics
  • Author : Diego Dalvit,Peter Milonni,David Roberts,Felipe da Rosa
  • Publisher : Springer Science & Business Media
  • Release : 30 June 2011
GET THIS BOOKCasimir Physics

Casimir effects serve as primary examples of directly observable manifestations of the nontrivial properties of quantum fields, and as such are attracting increasing interest from quantum field theorists, particle physicists, and cosmologists. Furthermore, though very weak except at short distances, Casimir forces are universal in the sense that all material objects are subject to them. They are thus also an increasingly important part of the physics of atom-surface interactions, while in nanotechnology they are being investigated not only as contributors

Principles of Statistical Radiophysics 3

Principles of Statistical Radiophysics 3
  • Author : Sergei M. Rytov,Yurii A. Kravtsov,Valeryan I. Tatarskii
  • Publisher : Springer
  • Release : 14 July 1989
GET THIS BOOKPrinciples of Statistical Radiophysics 3

Principles of Statistical Radiophysics is a four-volume series that introduces the newcomer to the theory of random functions. It aims at providing the background necessary to understand papers and monographs on the subject and to carry out independent research in the fields where fluctuations are of importance, e.g. radiophysics, optics, astronomy, and acoustics. Volume 3, Elements of Random Fields, gives the basic mathematical definitions, general properties and specific forms of random fields, the generalization from correlation theory to random fields.

Theory of High Temperature Superconductivity

Theory of High Temperature Superconductivity
  • Author : S. Fujita,S. Godoy
  • Publisher : Springer Science & Business Media
  • Release : 11 April 2006
GET THIS BOOKTheory of High Temperature Superconductivity

Flux quantization experiments indicate that the carriers, Cooper pairs (pairons), in the supercurrent have charge magnitude 2e, and that they move independently. Josephson interference in a Superconducting Quantum Int- ference Device (SQUID) shows that the centers of masses (CM) of pairons move as bosons with a linear dispersion relation. Based on this evidence we develop a theory of superconductivity in conventional and mate- als from a unified point of view. Following Bardeen, Cooper and Schrieffer (BCS) we regard the phonon

Hyperbolic Metamaterials

Hyperbolic Metamaterials
  • Author : Igor I Smolyaninov
  • Publisher : Morgan & Claypool Publishers
  • Release : 23 March 2018
GET THIS BOOKHyperbolic Metamaterials

Hyperbolic metamaterials were originally introduced to overcome the diffraction limit of optical imaging. Soon thereafter it was realized that hyperbolic metamaterials demonstrate a number of novel phenomena resulting from the broadband singular behavior of their density of photonic states. These novel phenomena and applications include super resolution imaging, new stealth technologies, enhanced quantum-electrodynamic effects, thermal hyperconductivity, superconductivity, and interesting gravitation theory analogs. Here I review typical material systems, which exhibit hyperbolic behavior and outline important new applications of hyperbolic metamaterials,

Microscale and Nanoscale Heat Transfer

Microscale and Nanoscale Heat Transfer
  • Author : C.B. Sobhan,G.P. Peterson
  • Publisher : CRC Press
  • Release : 12 June 2008
GET THIS BOOKMicroscale and Nanoscale Heat Transfer

Through analyses, experimental results, and worked-out numerical examples, Microscale and Nanoscale Heat Transfer: Fundamentals and Engineering Applications explores the methods and observations of thermophysical phenomena in size-affected domains. Compiling the most relevant findings from the literature, along with results from their own re