Effective Field Approach To Phase Transitions And Some Applications To Ferroelectrics
Download Effective Field Approach To Phase Transitions And Some Applications To Ferroelectrics PDF/ePub or read online books in Mobi eBooks. Click Download or Read Online button to get Effective Field Approach To Phase Transitions And Some Applications To Ferroelectrics book now. This website allows unlimited access to, at the time of writing, more than 1.5 million titles, including hundreds of thousands of titles in various foreign languages.
Effective Field Approach to Phase Transitions and Some Applications to Ferroelectrics
This book begins by introducing the effective field approach, the simplest approach to phase transitions. It provides an intuitive approximation to the physics of such diverse phenomena as liquid-vapor transitions, ferromagnetism, superconductivity, order-disorder in alloys, ferroelectricity, superfluidity and ferroelasticity. The connection between the effective field approach and Landau's theory is stressed.The main coverage is devoted to specific applications of the effective field concept to ferroelectric systems, both hydrogen bonded ferroelectrics, like those in the TGS family, and oxide ferroelectrics, like pure and mixed perovskites.
Effective Field Approach to Phase Transitions and Some Applications to Ferroelectrics
This book begins by introducing the effective field approach, the simplest approach to phase transitions. It provides an intuitive approximation to the physics of such diverse phenomena as liquid-vapor transitions, ferromagnetism, superconductivity, order-disorder in alloys, ferroelectricity, superfluidity and ferroelasticity. The connection between the effective field approach and Landau's theory is stressed. The main coverage is devoted to specific applications of the effective field concept to ferroelectric systems, both hydrogen bonded ferroelectrics, like those in the TGS family, and oxide ferroelectrics, like pure and mixed perovskites. Sample Chapter(s). Chapter 1: An Overview (310 KB). Contents: Mean Field Approach to Cooperative Phenomena; Some Applications to Ferroelectrics: 1970OCo1991; Some Applications to Ferroelectrics: 1991OCo1997; Some Applications to Ferroelectrics: 1998OCo2005. Readership: Materials scientists, physicists and chemists in academy and industry; final year undergraduates and graduates in materials science."
Effective Field Approach to Phase Transitions and Some Applications to Ferroelectrics
Author: Julio A Gonzalo
language: en
Publisher: World Scientific Publishing Company
Release Date: 1991-05-07
The first half of the book presents the effective field approach, which is certainly the simplest approach to investigate cooperative phenomena and the accompanying phase transitions. It provides a common, intuitive approximation to the physics of such diverse phenomena as liquid-vapor transitions, ferromagnetism, superconductivity, order-disorder in alloys, ferroelectricity, superfluidity and ferroelasticity. The connection between the effective field approach and Landau's phenomenological theory is stressed. The latter half is devoted to some specific applications of the effective field concept to ferroelectric systems. Contents:Mean Field Approach to Cooperative Phenomena:An OverviewLiquid-Vapour TransitionsFerromagnetic TransitionsSuperconductive TransitionsOrder-Disorder Transitions in AlloysFerroelectric TransitionsSuperfluid TransitionsFerroelastic TransitionsLandau Theory and Effective Field Approach. Role of FluctuationsEquation of State and the Scaling FunctionAppendix: Effective Field Approach to Superconductors and SuperfluidsSome Application to Ferroelectric Systems:Behaviour at T ≊ Tc of Pure Ferroelectric Systems with Second-Order Phase TransitionEffects of Dipolar Impurities in Small AmountsMixed Ferro-Antiferroelectric Systems and other Mixed Ferroelectric SystemsComments on “Ferroelectricity in Zinc Cadmium Telluride“ Relaxation Phenomena near TcPolarization Reversal in Ferroelectric SystemsPolarization Switching by Domain Wall MotionSwitching Current Pulse ShapeElementary Excitations in Ferroelectrics: Dipole WavesLow Temperature Behaviour of FerroelectricsLogarithmic Corrections Readership: Condensed matter physicists, statistical physicists and physical chemists.