Thermal Conduction in Semiconductors
Author : John Raymond Drabble
Publisher :
Page : pages
File Size : 26,39 MB
Release : 2013
Category : Heat--Conduction
ISBN :
Author : John Raymond Drabble
Publisher :
Page : pages
File Size : 26,39 MB
Release : 2013
Category : Heat--Conduction
ISBN :
Author : Terry M. Tritt
Publisher : Springer Science & Business Media
Page : 306 pages
File Size : 35,76 MB
Release : 2006-10-03
Category : Science
ISBN : 038726017X
It has been almost thirty years since the publication of a book that is entirely dedicated to the theory, description, characterization and measurement of the thermal conductivity of solids. The recent discovery of new materials which possess more complex crystal structures and thus more complicated phonon scattering mechanisms have brought innovative challenges to the theory and experimental understanding of these new materials. With the development of new and novel solid materials and new measurement techniques, this book will serve as a current and extensive resource to the next generation researchers in the field of thermal conductivity. This book is a valuable resource for research groups and special topics courses (8-10 students), for 1st or 2nd year graduate level courses in Thermal Properties of Solids, special topics courses in Thermal Conductivity, Superconductors and Magnetic Materials, and to researchers in Thermoelectrics, Thermal Barrier Materials and Solid State Physics.
Author : J.R. Drabble
Publisher :
Page : 256 pages
File Size : 31,56 MB
Release : 1961
Category :
ISBN :
Author : C. M. Bhandari
Publisher :
Page : 252 pages
File Size : 20,30 MB
Release : 1988
Category : Science
ISBN :
Author : J. R. Drabble
Publisher : Pergamon
Page : 256 pages
File Size : 15,28 MB
Release : 1961
Category : Technology & Engineering
ISBN :
Author : C. M. Bhandari
Publisher :
Page : 252 pages
File Size : 30,86 MB
Release : 1988
Category : Science
ISBN :
Author : Robert Berman
Publisher : Oxford University Press, USA
Page : 218 pages
File Size : 14,54 MB
Release : 1976
Category : Business & Economics
ISBN :
Describes the physics of the processes involved in a detailed but uncomplicated way, illustrated by experimental results on insulating crystals, non-crystalline solids, metals, alloys, and semiconductors.
Author : R. E. Peierls
Publisher : Clarendon Press
Page : 238 pages
File Size : 29,30 MB
Release : 1996-08-15
Category : Science
ISBN : 0191516481
This book develops the subject from the basic principles of quantum mechanics. The emphasis is on a single statement of the ideas underlying the various approximations that have to be used and care is taken to separate sound arguments from conjecture. This book is written for the student of theoretical physics who wants to work in the field of solids and for the experimenter with a knowledge of quantum theory who is not content to take other people's arguments for granted. The treatment covers the electron theory of metals as well as the dynamics of crystals, including the author's work on the thermal conductivity of crystals which has been previously published in English.
Author : J.M. Ziman
Publisher : Oxford University Press
Page : 572 pages
File Size : 30,49 MB
Release : 2001-02
Category : Science
ISBN : 9780198507796
This is a classic text of its time in condensed matter physics.
Author : Pol Torres Alvarez
Publisher : Springer
Page : 171 pages
File Size : 38,12 MB
Release : 2018-06-28
Category : Technology & Engineering
ISBN : 3319949837
Starting from a broad overview of heat transport based on the Boltzmann Transport Equation, this book presents a comprehensive analysis of heat transport in bulk and nanomaterials based on a kinetic-collective model (KCM). This has become key to understanding the field of thermal transport in semiconductors, and represents an important stride. The book describes how heat transport becomes hydrodynamic at the nanoscale, propagating very much like a viscous fluid and manifesting vorticity and friction-like behavior. It introduces a generalization of Fourier’s law including a hydrodynamic term based on collective behavior in the phonon ensemble. This approach makes it possible to describe in a unifying way recent experiments that had to resort to unphysical assumptions in order to uphold the validity of Fourier’s law, demonstrating that hydrodynamic heat transport is a pervasive type of behavior in semiconductors at reduced scales.