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Statistical Theory of Heat : Nonequilibrium Phenomena

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Cover of 'Statistical Theory of Heat : Nonequilibrium Phenomena'

Table of Contents

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    Book Overview
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    Chapter 1 Introduction
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    Chapter 2 General Equations of Motion of Statistical Physics
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    Chapter 3 Small Amplitude Perturbation Theory (Linear Response)
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    Chapter 4 Brownian Motion (Relaxator)
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    Chapter 5 Brownian Motion (Oscillator)
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    Chapter 6 Dispersion Relations and Spectral Representations
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    Chapter 7 Symmetry Properties of Correlation Functions
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    Chapter 8 Detailed Balance, Fluctuations and Dissipation
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    Chapter 9 Scattering of Particles and Light
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    Chapter 10 Energy Dissipation, Detailed Balance and Passivity
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    Chapter 11 The High-Frequency Behaviour of Response Functions
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    Chapter 12 The Low-Frequency Behaviour of Response Functions
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    Chapter 13 Stochastic Forces, Langevin Equation
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    Chapter 14 Brownian Motion: Langevin Equation
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    Chapter 15 Nonlinear Response Theory
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    Chapter 16 The Increase of Entropy and Irreversibility
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    Chapter 17 The Increase of Entropy: A Critical Discussion
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    Chapter 18 The Nyquist Formula
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    Chapter 19 Thermomechanical Effects
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    Chapter 20 Diffusion and Thermodiffusion
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    Chapter 21 Thermoelectric Effects
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    Chapter 22 Chemical Reactions
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    Chapter 23 Typical Time Evolutions of Simple Chemical Reactions
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    Chapter 24 Coupled Nonlinear Reactions
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    Chapter 25 Chemical Fluctuations
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    Chapter 26 Sticking, Desorption, Condensation and Evaporation
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    Chapter 27 Nucleation
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    Chapter 28 The Oscillator with Mechanical and Thermal Attenuation
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    Chapter 29 Hydrodynamics
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    Chapter 30 Hydrodynamic Long-Time Tails
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    Chapter 31 Matter in Electromagnetic Fields
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    Chapter 32 Rate Equations (Master Equation, Stosszahlansatz)
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    Chapter 33 Kinetic Transport Equations
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    Chapter 34 The Dynamic Conductivity in the Relaxation Time Model
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    Chapter 35 Zero Sound
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    Chapter 36 The Fokker-Planck Approximation
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    Chapter 37 Brownian Motion and Diffusion
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    Chapter 38 Fokker-Planck and Langevin Equations
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    Chapter 39 Transport Equations in the Hydrodynamic Regime
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    Chapter 40 The Minimum Entropy Production Variational Principle
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    Chapter 41 Approximation Methods
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    Chapter 42 Correlation Functions for Single-Particle Problems
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    Chapter 43 Perturbation Theory for Impurity Conduction
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    Chapter 44 Electron-Phonon Conduction
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    Chapter 45 Mode Coupling Theory for Impurity Conduction
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    Chapter 46 Electron Localization
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    Chapter 47 Localization and Quantum Interference
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    Chapter 48 Scaling Laws for Dynamic Critical Phenomena
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    Chapter 49 Applications of Dynamic Scaling Laws
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    Chapter 50 Mode-Coupling Theory for Dynamic Critical Phenomena
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    Chapter 51 Broken Symmetry and Low-Frequency Modes
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    Chapter 52 Collision Rates
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    Chapter 53 Many-Body Effects in Collision Rates
Overall attention for this book and its chapters
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Mentioned by

syllabi
2 institutions with syllabi

Citations

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92 Dimensions

Readers on

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23 Mendeley
Summary Syllabi Dimensions citations
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Title
Statistical Theory of Heat : Nonequilibrium Phenomena
Published by
Springer Berlin Heidelberg, December 2012
DOI 10.1007/978-3-642-74685-7
ISBNs
978-3-64-274685-7, 978-3-64-274687-1
Authors

Brenig, Wilhelm

View on publisher site
Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 23 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 23 100%

Demographic breakdown

Readers by professional status Count As %
Student > Ph. D. Student 6 26%
Researcher 5 22%
Student > Master 4 17%
Student > Bachelor 2 9%
Student > Doctoral Student 1 4%
Other 3 13%
Unknown 2 9%
Readers by discipline Count As %
Physics and Astronomy 11 48%
Materials Science 3 13%
Biochemistry, Genetics and Molecular Biology 1 4%
Mathematics 1 4%
Computer Science 1 4%
Other 3 13%
Unknown 3 13%

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