Verfügbarkeit: Non-equilibrium thermodynamics and physical kinetics

Non-equilibrium thermodynamics and physical kinetics:

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Bibliographische Detailangaben
Hauptverfasser:	Bikkin, Chalid M. (VerfasserIn), Ljapilin, Igorʹ I. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Boston De Gruyter [2021]
Ausgabe:	2nd edition
Schriftenreihe:	De Gruyter graduate
Schlagworte:	Kinetische Theorie Nichtgleichgewichtsthermodynamik TB: Textbook
Online-Zugang:	https://www.degruyter.com/books/9783110727067 Inhaltsverzeichnis
Beschreibung:	XIII, 436 Seiten Illustrationen 24 cm x 17 cm
ISBN:	3110727064 9783110727067

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245	1	0	\|a Non-equilibrium thermodynamics and physical kinetics \|c Halid Bikkin, Igor I. Lyapilin
250			\|a 2nd edition
264		1	\|a Berlin ; Boston \|b De Gruyter \|c [2021]
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Datensatz im Suchindex

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adam_text	CONTENTS AUTHORS INTRODUCTION ---- V 1 1.1 1.1.1 PHENOMENOLOGICAL THERMODYNAMICS OF IRREVERSIBLE PROCESSES ---- 1 MAIN POSTULATES OF NON-EQUILIBRIUM THERMODYNAMICS ---- 1 THERMODYNAMIC DESCRIPTION OF EQUILIBRIUM AND NON-EQUILIBRIUM SYSTEMS ---- 1 1.1.2 1.1.3 1.1.4 1.1.5 LOCAL EQUILIBRIUM PRINCIPLE ---- 3 ENTROPY BALANCE EQUATION AND CONSERVATION LAWS ---- 4 GENERALIZED FLOWS AND GENERALIZED THERMODYNAMIC FORCES ---- 7 GENERALIZED TRANSPORT COEFFICIENTS AND THE ONSAGER SYMMETRY RELATIONS ---- 9 1.1.6 1.1.7 VARIATIONAL PRINCIPLES IN LINEAR NON-EQUILIBRIUM THERMODYNAMICS ---- 10 MINIMUM ENTROPY PRODUCTION PRINCIPLE FOR WEAKLY NON-EQUILIBRIUM STEADY STATES ---- 12 1.2 1.2.1 ON THE APPLICATION OF THE ONSAGER THEORY ---- 14 THERMOELECTRIC PHENOMENA. THE PELTIER, SEEBECK, THOMSON EFFECTS AND THEIR RELATIONSHIP ---- 14 1.2.2 1.3 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 1.3.6 1.3.7 1.3.8 1.3.9 1.4 EFFECTS IN AN EXTERNAL MAGNETIC FIELD ---- 20 SELF-ORGANIZATION IN HIGHLY NON-EQUILIBRIUM SYSTEMS ---- 29 NON-EQUILIBRIUM DISSIPATIVE STRUCTURES ---- 29 THE GLANSDORFF-PRIGOGINE UNIVERSAL EVOLUTION CRITERION ---- 30 WAYS OF DESCRIBING STRONGLY NON-EQUILIBRIUM SYSTEMS ---- 32 STABILITY OF STATES OF HIGHLY NON-EQUILIBRIUM SYSTEMS ---- 35 THE LYAPUNOV GLOBAL STABILITY CRITERION ---- 37 DYNAMICAL SYSTEMS WITH ONE DEGREE OF FREEDOM ---- 39 DYNAMICAL SYSTEMS WITH TWO DEGREES FREEDOM ---- 41 DYNAMIC CHAOS ---- 47 DYNAMIC CHAOS IN ONE-DIMENSIONAL MAPPINGS ---- 52 PROBLEMS TO CHAPTER 1 ---- 58 2 2.1 2.1.1 2.1.2 2.2 2.2.1 2.2.2 2.3 BROWNIAN MOTION ---- 61 THE LANGEVIN EQUATION FORA BROWNIAN PARTICLE ---- 61 NATURE OF MOTION OF A BROWNIAN PARTICLE. RANDOM FORCES ---- 61 DISPLACEMENT OF A BROWNIAN PARTICLE -----66 THE FOKKER-PLANCK EQUATION FOR A BROWNIAN PARTICLE ---- 69 DERIVATION OF THE FOKKER-PLANCK EQUATION -----69 THE SOLUTION OF THE FOKKER-PLANCK EQUATION ---- 71 PROBLEMS TO CHAPTER 2 ---- 75 3 KINETIC EQUATIONS IN NON-EQUILIBRIUM STATISTICAL MECHANICS ---- 77 X - CONTENTS 3.1 DESCRIPTION OF NON-EQUILIBRIUM SYSTEMS IN STATISTICAL MECHANICS ---- 77 3.1.1 INTEGRABLE AND NONINTEGRABLE DYNAMICAL SYSTEMS ---- 77 3.1.2 THE EVOLUTION OF DYNAMICAL SYSTEMS IN PHASE SPACE ---- 79 3.2 SUBSTANTIATION OF QUASICLASSICAL KINETIC EQUATIONS ---- 86 3.2.1 THE LIOUVILLE EQUATION FOR THE DISTRIBUTION FUNCTION --- 86 3.2.2 THE CHAIN OF THE BOGOLIUBOV EQUATIONS ---- 87 3.2.3 EQUATION FOR THE ONE-PARTICLE DISTRIBUTION. THE RELAXATION TIME APPROXIMATION ---- 91 3.2.4 THE VLASOV KINETIC EQUATION FOR A COLLISIONLESS PLASMA -----93 3.2.5 THE BOLTZMANN EQUATION FOR A LOW-DENSITY GAS ---- 100 3.2.6 QUALITATIVE DERIVATION OF THE BOLTZMANN EQUATION ---- 101 3.2.7 DERIVATION OF THE BOLTZMANN EQUATION FROM THE BOGOLIUBOV EQUATIONS CHAIN ---- 107 3.2.8 THE FOKKER-PLANCK EQUATION ----- 111 3.3 SOLVING FOR KINETIC EQUATIONS ------ 115 3.3.1 THE SOLUTION OF THE BOLTZMANN EQUATION FOR THE EQUILIBRIUM STATE ---- 115 3.3.2 THE BOLTZMANN H-THEOREM ----- 117 3.3.3 THE HILBERT EXPANSION ---- 119 3.3.4 THE ENSKOG-CHAPMAN METHOD. DERIVATION OF HYDRODYNAMIC EQUATIONS ---- 125 3.3.5 THE METHOD OF MOMENTS ---- 130 3.4 PROBLEMS TO CHAPTER 3 ---- 132 4 KINETIC EQUATION FOR ELECTRONS AND PHONONS IN CONDUCTING CRYSTALS - 135 4.1 KINETIC COEFFICIENTS IN THE RELAXATION TIME APPROXIMATION ---- 135 4.1.1 KINETIC EQUATION FOR ELECTRONS AND ITS SOLUTION TO THE RELAXATION TIME APPROXIMATION ---- 135 4.1.2 CONDITIONSOF APPLICABILITY FOR THE QUASI-CLASSICAL DESCRIPTION OF ELECTRONS IN CONDUCTING CRYSTALS ---- 140 4.1.3 HOW TO DETERMINE CHARGE AND HEAT FLUXES AND CALCULATE KINETIC COEFFICIENTS WHEN H = 0 ---- 143 4.1.4 SCATTERING OF ELECTRONS BY LATTICE VIBRATIONS ---- 154 4.1.5 THE HAMILTONIAN OF INTERACTION BETWEEN ELECTRONS AND CHARGED IMPURITY CENTERS ---- 157 4.1.6 THE COLLISION INTEGRAL FOR THE ELECTRON-PHONON INTERACTION ---- 160 4.1.7 PHENOMENON OF PHONON DRAG ---- 165 4.1.8 EXPRESSIONS FOR CHARGE AND HEAT FLUXES IN A MAGNETIC FIELD. TENSOR STRUCTURE OF KINETIC COEFFICIENTS ---- 169 4.1.9 GALVANOMAGNETIC AND THERMOMAGNETIC EFFECTS IN SEMICONDUCTORS WITH A PARABOLIC DISPERSION LAW ---- 171 4.2 HYDRODYNAMIC DESCRIPTION OF A HOT ELECTRONS ---- 177 4.2.1 TRANSITION TO A HYDRODYNAMIC DESCRIPTION ---- 177 CONTENTS - XI 4.2.2 THE MOMENTUM BALANCE EQUATION ---- 180 4.2.3 BALANCE EQUATIONS OF ENERGY AND PARTICLE NUMBER ---- 185 4.2.4 SOLVING A SET OF BALANCE EQUATIONS. APPLICATIONS OF HYDRODYNAMIC APPROACH ---- 188 4.2.5 NEGATIVE DIFFERENTIAL RESISTANCE ---- 190 4.3 PROBLEMS TO CHAPTER 4 ----- 194 5 THEORY OF LINEAR RESPONSE TO AN EXTERNAL MECHANICAL PERTURBATION - 197 5.1 ELECTRICAL CONDUCTIVITY OF AN ELECTRON GAS. THE KUBO METHOD ---- 197 5.1.1 THE LIOUVILLE EQUATION AND ITS SOLUTION ---- 197 5.1.2 LINEAR RESPONSE OF A DYNAMICAL SYSTEM TO AN EXTERNAL FIELD ---- 201 5.1.3 CALCULATION OF ELECTRICAL CONDUCTIVITY ---- 206 5.1.4 HIGH-FREQUENCY MAGNETIC SUSCEPTIBILITY ---- 216 5.2 ELECTRICAL CONDUCTIVITY IN A QUANTIZING MAGNETIC FIELD ---- 223 5.2.1 CHARGE AND HEAT FLUXES IN A QUANTIZING MAGNETIC FIELD ---- 223 5.2.2 DYNAMICS OF ELECTRON MOTION IN A QUANTIZING MAGNETIC FIELD ---- 225 5.2.3 THE CONDUCTIVITY TENSOR IN A QUANTIZING MAGNETIC FIELD ---- 228 5.2.4 THE CONDUCTIVITY IN THE CASE QUASI-ELASTIC SCATTERING BY PHONONS ---- 230 5.3 SYMMETRY PROPERTIES OF CORRELATION FUNCTIONS ---- 237 5.3.1 ADDITIVE CONSERVATION LAWS AND SELECTION RULES FOR AVERAGES ---- 237 5.3.2 SYMMETRY PROPERTIES OF CORRELATION FUNCTIONS FOR OPERATIONS OF SPATIAL ROTATION, COMPLEX CONJUGATION AND TIME REVERSAL ------- 240 5.4 PROBLEMS TO CHAPTERS ---- 245 6 NON-EQUILIBRIUM STATISTICAL OPERATOR METHOD ---- 249 6.1 NON-EQUILIBRIUM AND QUASI-EQUILIBRIUM STATISTICAL OPERATORS ---- 249 6.1.1 QUASI-EQUILIBRIUM DISTRIBUTION ---- 249 6.1.2 EXTREMAL PROPERTIES OF A QUASI-EQUILIBRIUM DISTRIBUTION. THERMODYNAMICS OF A QUASI-EQUILIBRIUM ENSEMBLE ---- 252 6.1.3 BOUNDARY CONDITIONS AND THE LIOUVILLE EQUATION FOR THE NSO ---- 259 6.1.4 LINEAR RELAXATION EQUATIONS IN THE NSO-METHOD ---- 262 6.2 THE PROJECTION OPERATORS METHOD IN NON-EQUILIBRIUM STATISTICAL MECHANICS ----- 268 6.2.1 WHY IS IT NECESSARY TO INTRODUCE PROJECTION OPERATORS? ---- 268 6.2.2 THE MORI PROJECTION OPERATOR METHOD ---- 272 6.2.3 USING THE MORI PROJECTION OPERATORS TO CALCULATE CONDUCTIVITY ---- 279 6.2.4 RELATIONSHIP BETWEEN A LINEAR VARIANT OF THE NSO-METHOD AND MORI S METHOD ---- 286 6.2.5 HIGH-FREQUENCY SUSCEPTIBILITY ---- 290 6.2.6 DETERMINATION OF NON-EQUILIBRIUM PARAMETERS BY THE NSO-METHOD ---- 292 XII - CONTENTS 6.3 HYDRODYNAMIC MODES AND SINGULARITY OF DYNAMIC CORRELATION FUNCTIONS ----- 298 6.3.1 SPIN DIFFUSION ---- 298 6.3.2 THE FLUCTUATION-DISSIPATION THEOREM ---- 302 6.3.3 LONG-RANGE CORRELATIONS AND SLOW MODES ---- 307 6.3.4 BOGOLIUBOV INEQUALITY AND 1/K 2 DIVERGENCE THEOREM ---- 312 6.4 PROBLEMS TO CHAPTER 6 ---- 318 7 PHYSICAL PRINCIPLES OF SPINTRONICS ---- 321 7.1 SPIN CURRENT ---- 321 7.1.1 NATUREOFSPIN CURRENT EMERGENCE ---- 321 7.1.2 KINETIC EQUATION IN THE RELAXATION TIME APPROXIMATION FOR THE TWO-CHANNEL MOTT MODEL ---- 324 7.2 MAGNETORESISTANCE AND SPIN ACCUMULATION IN LAYERED STRUCTURES ---- 327 7.2.1 GIANT MAGNETORESISTANCE ---- 327 7.2.2 SPIN ACCUMULATION ---- 337 7.2.3 SPIN-INDUCED VOLTAGE DETECTION ----- 340 7.2.4 USING THE HANLE EFFECT TO DETECT SPIN ACCUMULATION ---- 341 7.2.5 COORDINATE-DEPENDENCE OF ELECTROCHEMICAL POTENTIALS IN AN F/N STRUCTURE ---- 343 7.3 THE SPIN HALL EFFECT ----- 349 7.3.1 PHENOMENOLOGICAL CONSIDERATION ----- 349 7.3.2 SPIN-ORBIT INTERACTION MECHANISMS ----- 352 7.3.3 THE MICROSCOPIC NATURE OF SPIN TRANSPORT ---- 356 7.3.4 A QUALITATIVE EXPLANATION OF THE INTRINSIC SPIN HALL EFFECT FOR SYSTEMS WITH THE RASHBA HAMILTONIAN ---- 358 7.3.5 THE BERRY PHASE. BASIC DEFINITIONS ---- 365 7.3.6 THE BERRY PHASE FOR BLOCH ELECTRONS ---- 369 7.3.7 DYNAMICS OF BLOCH ELECTRONS IN AN ELECTRIC FIELD ---- 372 7.3.8 THE BERRY CURVATURE AND THE SPIN HALL EFFECT ---- 373 7.3.9 PHYSICAL PRINCIPLES OF OPERATION OF SPINTRONICS DEVICES ---- 375 7.4 PROBLEMS TO THE CHAPTER 7 ---- 378 8 RESPONSE OF A HIGHLY NON-EQUILIBRIUM SYSTEM TO A WEAK MEASURING FIELD ---- 381 8.1 NSO FOR HIGHLY NON-EQUILIBRIUM SYSTEMS ---- 381 8.1.1 SET UP OF THE PROBLEM. A BOUNDARY CONDITION FOR THE NSO---- 381 8.1.2 GENERALIZED SUSCEPTIBILITY OF A NON-EQUILIBRIUM SYSTEM ---- 387 8.2 PROJECTION OPERATOR FOR NON-EQUILIBRIUM SYSTEMS ---- 392 8.2.1 MAGNETIC SUSCEPTIBILITY -- 392 8.2.2 ELECTRICAL CONDUCTIVITY OF HIGHLY NON-EQUILIBRIUM SYSTEMS ---- 394 8.3 PROBLEMS TO CHAPTER 8 ----- 411 CONTENTS - XIII 9 MASTER EQUATION APPROACH --- 413 9.1 THE BASIC IDEA OF THE METHOD ----- 413 9.1.1 PROBLEM STATEMENT - 413 9.1.2 THE ZWANZIG KINETIC EQUATION ---- 414 9.2 MASTER EQUATION FOR THE QUASI-EQUILIBRIUM DISTRIBUTION ---- 417 9.2.1 ROBERTSON PROJECTION OPERATOR ---- 417 9.2.2 USE OF THE MASTER EQUATION TO CALCULATE KINETIC COEFFICIENTS ---- 420 9.3 PROBLEMS TO CHAPTER 9 ---- 426 BIBLIOGRAPHY ---- 429 INDEX ---- 431
adam_txt	CONTENTS AUTHORS ' INTRODUCTION ---- V 1 1.1 1.1.1 PHENOMENOLOGICAL THERMODYNAMICS OF IRREVERSIBLE PROCESSES ---- 1 MAIN POSTULATES OF NON-EQUILIBRIUM THERMODYNAMICS ---- 1 THERMODYNAMIC DESCRIPTION OF EQUILIBRIUM AND NON-EQUILIBRIUM SYSTEMS ---- 1 1.1.2 1.1.3 1.1.4 1.1.5 LOCAL EQUILIBRIUM PRINCIPLE ---- 3 ENTROPY BALANCE EQUATION AND CONSERVATION LAWS ---- 4 GENERALIZED FLOWS AND GENERALIZED THERMODYNAMIC FORCES ---- 7 GENERALIZED TRANSPORT COEFFICIENTS AND THE ONSAGER SYMMETRY RELATIONS ---- 9 1.1.6 1.1.7 VARIATIONAL PRINCIPLES IN LINEAR NON-EQUILIBRIUM THERMODYNAMICS ---- 10 MINIMUM ENTROPY PRODUCTION PRINCIPLE FOR WEAKLY NON-EQUILIBRIUM STEADY STATES ---- 12 1.2 1.2.1 ON THE APPLICATION OF THE ONSAGER THEORY ---- 14 THERMOELECTRIC PHENOMENA. THE PELTIER, SEEBECK, THOMSON EFFECTS AND THEIR RELATIONSHIP ---- 14 1.2.2 1.3 1.3.1 1.3.2 1.3.3 1.3.4 1.3.5 1.3.6 1.3.7 1.3.8 1.3.9 1.4 EFFECTS IN AN EXTERNAL MAGNETIC FIELD ---- 20 SELF-ORGANIZATION IN HIGHLY NON-EQUILIBRIUM SYSTEMS ---- 29 NON-EQUILIBRIUM DISSIPATIVE STRUCTURES ---- 29 THE GLANSDORFF-PRIGOGINE UNIVERSAL EVOLUTION CRITERION ---- 30 WAYS OF DESCRIBING STRONGLY NON-EQUILIBRIUM SYSTEMS ---- 32 STABILITY OF STATES OF HIGHLY NON-EQUILIBRIUM SYSTEMS ---- 35 THE LYAPUNOV GLOBAL STABILITY CRITERION ---- 37 DYNAMICAL SYSTEMS WITH ONE DEGREE OF FREEDOM ---- 39 DYNAMICAL SYSTEMS WITH TWO DEGREES FREEDOM ---- 41 DYNAMIC CHAOS ---- 47 DYNAMIC CHAOS IN ONE-DIMENSIONAL MAPPINGS ---- 52 PROBLEMS TO CHAPTER 1 ---- 58 2 2.1 2.1.1 2.1.2 2.2 2.2.1 2.2.2 2.3 BROWNIAN MOTION ---- 61 THE LANGEVIN EQUATION FORA BROWNIAN PARTICLE ---- 61 NATURE OF MOTION OF A BROWNIAN PARTICLE. RANDOM FORCES ---- 61 DISPLACEMENT OF A BROWNIAN PARTICLE -----66 THE FOKKER-PLANCK EQUATION FOR A BROWNIAN PARTICLE ---- 69 DERIVATION OF THE FOKKER-PLANCK EQUATION -----69 THE SOLUTION OF THE FOKKER-PLANCK EQUATION ---- 71 PROBLEMS TO CHAPTER 2 ---- 75 3 KINETIC EQUATIONS IN NON-EQUILIBRIUM STATISTICAL MECHANICS ---- 77 X - CONTENTS 3.1 DESCRIPTION OF NON-EQUILIBRIUM SYSTEMS IN STATISTICAL MECHANICS ---- 77 3.1.1 INTEGRABLE AND NONINTEGRABLE DYNAMICAL SYSTEMS ---- 77 3.1.2 THE EVOLUTION OF DYNAMICAL SYSTEMS IN PHASE SPACE ---- 79 3.2 SUBSTANTIATION OF QUASICLASSICAL KINETIC EQUATIONS ---- 86 3.2.1 THE LIOUVILLE EQUATION FOR THE DISTRIBUTION FUNCTION --- 86 3.2.2 THE CHAIN OF THE BOGOLIUBOV EQUATIONS ---- 87 3.2.3 EQUATION FOR THE ONE-PARTICLE DISTRIBUTION. THE RELAXATION TIME APPROXIMATION ---- 91 3.2.4 THE VLASOV KINETIC EQUATION FOR A COLLISIONLESS PLASMA -----93 3.2.5 THE BOLTZMANN EQUATION FOR A LOW-DENSITY GAS ---- 100 3.2.6 QUALITATIVE DERIVATION OF THE BOLTZMANN EQUATION ---- 101 3.2.7 DERIVATION OF THE BOLTZMANN EQUATION FROM THE BOGOLIUBOV EQUATIONS CHAIN ---- 107 3.2.8 THE FOKKER-PLANCK EQUATION ----- 111 3.3 SOLVING FOR KINETIC EQUATIONS ------ 115 3.3.1 THE SOLUTION OF THE BOLTZMANN EQUATION FOR THE EQUILIBRIUM STATE ---- 115 3.3.2 THE BOLTZMANN H-THEOREM ----- 117 3.3.3 THE HILBERT EXPANSION ---- 119 3.3.4 THE ENSKOG-CHAPMAN METHOD. DERIVATION OF HYDRODYNAMIC EQUATIONS ---- 125 3.3.5 THE METHOD OF MOMENTS ---- 130 3.4 PROBLEMS TO CHAPTER 3 ---- 132 4 KINETIC EQUATION FOR ELECTRONS AND PHONONS IN CONDUCTING CRYSTALS - 135 4.1 KINETIC COEFFICIENTS IN THE RELAXATION TIME APPROXIMATION ---- 135 4.1.1 KINETIC EQUATION FOR ELECTRONS AND ITS SOLUTION TO THE RELAXATION TIME APPROXIMATION ---- 135 4.1.2 CONDITIONSOF APPLICABILITY FOR THE QUASI-CLASSICAL DESCRIPTION OF ELECTRONS IN CONDUCTING CRYSTALS ---- 140 4.1.3 HOW TO DETERMINE CHARGE AND HEAT FLUXES AND CALCULATE KINETIC COEFFICIENTS WHEN H = 0 ---- 143 4.1.4 SCATTERING OF ELECTRONS BY LATTICE VIBRATIONS ---- 154 4.1.5 THE HAMILTONIAN OF INTERACTION BETWEEN ELECTRONS AND CHARGED IMPURITY CENTERS ---- 157 4.1.6 THE COLLISION INTEGRAL FOR THE ELECTRON-PHONON INTERACTION ---- 160 4.1.7 PHENOMENON OF PHONON DRAG ---- 165 4.1.8 EXPRESSIONS FOR CHARGE AND HEAT FLUXES IN A MAGNETIC FIELD. TENSOR STRUCTURE OF KINETIC COEFFICIENTS ---- 169 4.1.9 GALVANOMAGNETIC AND THERMOMAGNETIC EFFECTS IN SEMICONDUCTORS WITH A PARABOLIC DISPERSION LAW ---- 171 4.2 HYDRODYNAMIC DESCRIPTION OF A HOT ELECTRONS ---- 177 4.2.1 TRANSITION TO A HYDRODYNAMIC DESCRIPTION ---- 177 CONTENTS - XI 4.2.2 THE MOMENTUM BALANCE EQUATION ---- 180 4.2.3 BALANCE EQUATIONS OF ENERGY AND PARTICLE NUMBER ---- 185 4.2.4 SOLVING A SET OF BALANCE EQUATIONS. APPLICATIONS OF HYDRODYNAMIC APPROACH ---- 188 4.2.5 NEGATIVE DIFFERENTIAL RESISTANCE ---- 190 4.3 PROBLEMS TO CHAPTER 4 ----- 194 5 THEORY OF LINEAR RESPONSE TO AN EXTERNAL MECHANICAL PERTURBATION - 197 5.1 ELECTRICAL CONDUCTIVITY OF AN ELECTRON GAS. THE KUBO METHOD ---- 197 5.1.1 THE LIOUVILLE EQUATION AND ITS SOLUTION ---- 197 5.1.2 LINEAR RESPONSE OF A DYNAMICAL SYSTEM TO AN EXTERNAL FIELD ---- 201 5.1.3 CALCULATION OF ELECTRICAL CONDUCTIVITY ---- 206 5.1.4 HIGH-FREQUENCY MAGNETIC SUSCEPTIBILITY ---- 216 5.2 ELECTRICAL CONDUCTIVITY IN A QUANTIZING MAGNETIC FIELD ---- 223 5.2.1 CHARGE AND HEAT FLUXES IN A QUANTIZING MAGNETIC FIELD ---- 223 5.2.2 DYNAMICS OF ELECTRON MOTION IN A QUANTIZING MAGNETIC FIELD ---- 225 5.2.3 THE CONDUCTIVITY TENSOR IN A QUANTIZING MAGNETIC FIELD ---- 228 5.2.4 THE CONDUCTIVITY IN THE CASE QUASI-ELASTIC SCATTERING BY PHONONS ---- 230 5.3 SYMMETRY PROPERTIES OF CORRELATION FUNCTIONS ---- 237 5.3.1 ADDITIVE CONSERVATION LAWS AND SELECTION RULES FOR AVERAGES ---- 237 5.3.2 SYMMETRY PROPERTIES OF CORRELATION FUNCTIONS FOR OPERATIONS OF SPATIAL ROTATION, COMPLEX CONJUGATION AND TIME REVERSAL ------- 240 5.4 PROBLEMS TO CHAPTERS ---- 245 6 NON-EQUILIBRIUM STATISTICAL OPERATOR METHOD ---- 249 6.1 NON-EQUILIBRIUM AND QUASI-EQUILIBRIUM STATISTICAL OPERATORS ---- 249 6.1.1 QUASI-EQUILIBRIUM DISTRIBUTION ---- 249 6.1.2 EXTREMAL PROPERTIES OF A QUASI-EQUILIBRIUM DISTRIBUTION. THERMODYNAMICS OF A QUASI-EQUILIBRIUM ENSEMBLE ---- 252 6.1.3 BOUNDARY CONDITIONS AND THE LIOUVILLE EQUATION FOR THE NSO ---- 259 6.1.4 LINEAR RELAXATION EQUATIONS IN THE NSO-METHOD ---- 262 6.2 THE PROJECTION OPERATORS METHOD IN NON-EQUILIBRIUM STATISTICAL MECHANICS ----- 268 6.2.1 WHY IS IT NECESSARY TO INTRODUCE PROJECTION OPERATORS? ---- 268 6.2.2 THE MORI PROJECTION OPERATOR METHOD ---- 272 6.2.3 USING THE MORI PROJECTION OPERATORS TO CALCULATE CONDUCTIVITY ---- 279 6.2.4 RELATIONSHIP BETWEEN A LINEAR VARIANT OF THE NSO-METHOD AND MORI ' S METHOD ---- 286 6.2.5 HIGH-FREQUENCY SUSCEPTIBILITY ---- 290 6.2.6 DETERMINATION OF NON-EQUILIBRIUM PARAMETERS BY THE NSO-METHOD ---- 292 XII - CONTENTS 6.3 HYDRODYNAMIC MODES AND SINGULARITY OF DYNAMIC CORRELATION FUNCTIONS ----- 298 6.3.1 SPIN DIFFUSION ---- 298 6.3.2 THE FLUCTUATION-DISSIPATION THEOREM ---- 302 6.3.3 LONG-RANGE CORRELATIONS AND SLOW MODES ---- 307 6.3.4 BOGOLIUBOV INEQUALITY AND 1/K 2 DIVERGENCE THEOREM ---- 312 6.4 PROBLEMS TO CHAPTER 6 ---- 318 7 PHYSICAL PRINCIPLES OF SPINTRONICS ---- 321 7.1 SPIN CURRENT ---- 321 7.1.1 NATUREOFSPIN CURRENT EMERGENCE ---- 321 7.1.2 KINETIC EQUATION IN THE RELAXATION TIME APPROXIMATION FOR THE TWO-CHANNEL MOTT MODEL ---- 324 7.2 MAGNETORESISTANCE AND SPIN ACCUMULATION IN LAYERED STRUCTURES ---- 327 7.2.1 GIANT MAGNETORESISTANCE ---- 327 7.2.2 SPIN ACCUMULATION ---- 337 7.2.3 SPIN-INDUCED VOLTAGE DETECTION ----- 340 7.2.4 USING THE HANLE EFFECT TO DETECT SPIN ACCUMULATION ---- 341 7.2.5 COORDINATE-DEPENDENCE OF ELECTROCHEMICAL POTENTIALS IN AN F/N STRUCTURE ---- 343 7.3 THE SPIN HALL EFFECT ----- 349 7.3.1 PHENOMENOLOGICAL CONSIDERATION ----- 349 7.3.2 SPIN-ORBIT INTERACTION MECHANISMS ----- 352 7.3.3 THE MICROSCOPIC NATURE OF SPIN TRANSPORT ---- 356 7.3.4 A QUALITATIVE EXPLANATION OF THE INTRINSIC SPIN HALL EFFECT FOR SYSTEMS WITH THE RASHBA HAMILTONIAN ---- 358 7.3.5 THE BERRY PHASE. BASIC DEFINITIONS ---- 365 7.3.6 THE BERRY PHASE FOR BLOCH ELECTRONS ---- 369 7.3.7 DYNAMICS OF BLOCH ELECTRONS IN AN ELECTRIC FIELD ---- 372 7.3.8 THE BERRY CURVATURE AND THE SPIN HALL EFFECT ---- 373 7.3.9 PHYSICAL PRINCIPLES OF OPERATION OF SPINTRONICS DEVICES ---- 375 7.4 PROBLEMS TO THE CHAPTER 7 ---- 378 8 RESPONSE OF A HIGHLY NON-EQUILIBRIUM SYSTEM TO A WEAK MEASURING FIELD ---- 381 8.1 NSO FOR HIGHLY NON-EQUILIBRIUM SYSTEMS ---- 381 8.1.1 SET UP OF THE PROBLEM. A BOUNDARY CONDITION FOR THE NSO---- 381 8.1.2 GENERALIZED SUSCEPTIBILITY OF A NON-EQUILIBRIUM SYSTEM ---- 387 8.2 PROJECTION OPERATOR FOR NON-EQUILIBRIUM SYSTEMS ---- 392 8.2.1 MAGNETIC SUSCEPTIBILITY -- 392 8.2.2 ELECTRICAL CONDUCTIVITY OF HIGHLY NON-EQUILIBRIUM SYSTEMS ---- 394 8.3 PROBLEMS TO CHAPTER 8 ----- 411 CONTENTS - XIII 9 MASTER EQUATION APPROACH --- 413 9.1 THE BASIC IDEA OF THE METHOD ----- 413 9.1.1 PROBLEM STATEMENT - 413 9.1.2 THE ZWANZIG KINETIC EQUATION ---- 414 9.2 MASTER EQUATION FOR THE QUASI-EQUILIBRIUM DISTRIBUTION ---- 417 9.2.1 ROBERTSON PROJECTION OPERATOR ---- 417 9.2.2 USE OF THE MASTER EQUATION TO CALCULATE KINETIC COEFFICIENTS ---- 420 9.3 PROBLEMS TO CHAPTER 9 ---- 426 BIBLIOGRAPHY ---- 429 INDEX ---- 431
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author	Bikkin, Chalid M. Ljapilin, Igorʹ I.
author_GND	(DE-588)1050273656 (DE-588)1050273915
author_facet	Bikkin, Chalid M. Ljapilin, Igorʹ I.
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format	Book
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id	DE-604.BV047399975
illustrated	Illustrated
index_date	2024-07-03T17:52:12Z
indexdate	2024-07-10T09:11:04Z
institution	BVB
institution_GND	(DE-588)10095502-2
isbn	3110727064 9783110727067
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032801113
oclc_num	1264265719
open_access_boolean
owner	DE-29T DE-83
owner_facet	DE-29T DE-83
physical	XIII, 436 Seiten Illustrationen 24 cm x 17 cm
publishDate	2021
publishDateSearch	2021
publishDateSort	2021
publisher	De Gruyter
record_format	marc
series2	De Gruyter graduate
spelling	Bikkin, Chalid M. Verfasser (DE-588)1050273656 aut Non-equilibrium thermodynamics and physical kinetics Halid Bikkin, Igor I. Lyapilin 2nd edition Berlin ; Boston De Gruyter [2021] XIII, 436 Seiten Illustrationen 24 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier De Gruyter graduate Kinetische Theorie (DE-588)4030669-0 gnd rswk-swf Nichtgleichgewichtsthermodynamik (DE-588)4130850-5 gnd rswk-swf TB: Textbook Nichtgleichgewichtsthermodynamik (DE-588)4130850-5 s Kinetische Theorie (DE-588)4030669-0 s DE-604 Ljapilin, Igorʹ I. Verfasser (DE-588)1050273915 aut Walter de Gruyter GmbH & Co. KG (DE-588)10095502-2 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-11-072719-7 Erscheint auch als Online-Ausgabe, EPUB 978-3-11-072738-8 X:MVB https://www.degruyter.com/books/9783110727067 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032801113&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Bikkin, Chalid M. Ljapilin, Igorʹ I. Non-equilibrium thermodynamics and physical kinetics Kinetische Theorie (DE-588)4030669-0 gnd Nichtgleichgewichtsthermodynamik (DE-588)4130850-5 gnd
subject_GND	(DE-588)4030669-0 (DE-588)4130850-5
title	Non-equilibrium thermodynamics and physical kinetics
title_auth	Non-equilibrium thermodynamics and physical kinetics
title_exact_search	Non-equilibrium thermodynamics and physical kinetics
title_exact_search_txtP	Non-equilibrium thermodynamics and physical kinetics
title_full	Non-equilibrium thermodynamics and physical kinetics Halid Bikkin, Igor I. Lyapilin
title_fullStr	Non-equilibrium thermodynamics and physical kinetics Halid Bikkin, Igor I. Lyapilin
title_full_unstemmed	Non-equilibrium thermodynamics and physical kinetics Halid Bikkin, Igor I. Lyapilin
title_short	Non-equilibrium thermodynamics and physical kinetics
title_sort	non equilibrium thermodynamics and physical kinetics
topic	Kinetische Theorie (DE-588)4030669-0 gnd Nichtgleichgewichtsthermodynamik (DE-588)4130850-5 gnd
topic_facet	Kinetische Theorie Nichtgleichgewichtsthermodynamik
url	https://www.degruyter.com/books/9783110727067 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032801113&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT bikkinchalidm nonequilibriumthermodynamicsandphysicalkinetics AT ljapilinigorʹi nonequilibriumthermodynamicsandphysicalkinetics AT walterdegruytergmbhcokg nonequilibriumthermodynamicsandphysicalkinetics

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