Verfügbarkeit: Diffusion in condensed matter

Diffusion in condensed matter: methods, materials, models

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Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2005
Schlagworte:	Condensed matter Diffusion Diffusion processes Kondensierte Materie Festkörper Aufsatzsammlung Konferenzschrift > 1996 > Leipzig
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXVI, 965 S. graph. Darst.
ISBN:	3540200436 9783540200437

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Datensatz im Suchindex

_version_	1804132961150304256
adam_text	PAUL HEITJANS * JORG KARGER DIFFUSION IN CONDENSED MATTER METHODS, MATERIALS, MODELS WITH 448 FIGURES 4Y SPRINGER CONTENTS * IN DETAIL PART I SOLIDS 1 DIFFUSION: INTRODUCTION AND CASE STUDIES IN METALS AND BINARY ALLOYS HELMUT MEHRER 3 1.1 INTRODUCTION 3 1.2 CONTINUUM DESCRIPTION OF DIFFUSION 4 1.2.1 FICK S LAWS FOR ANISOTROPIC MEDIA 4 1.2.2 FICK S SECOND LAW FOR CONSTANT DIFFUSIVITY 5 1.2.3 FICK S SECOND LAW FOR CONCENTRATION-DEPENDENT DIFFUSIVITY 6 1.3 THE VARIOUS DIFFUSION COEFFICIENTS 7 1.3.1 TRACER DIFFUSION COEFFICIENTS 7 1.3.2 CHEMICAL DIFFUSION (OR INTERDIFFUSION) COEFFICIENT 8 1.3.3 INTRINSIC DIFFUSION COEFFICIENTS 10 1.4 EXPERIMENTAL METHODS 10 1.4.1 DIRECT METHODS 11 1.4.2 INDIRECT METHODS 15 1.5 DEPENDENCE OF DIFFUSION ON THERMODYNAMIC VARIABLES 17 1.5.1 TEMPERATURE DEPENDENCE 17 1.5.2 PRESSURE DEPENDENCE 18 1.6 ATOMISTIC DESCRIPTION OF DIFFUSION 19 1.6.1 EINSTEIN-SMOLUCHOWSKI RELATION AND CORRELATION FACTOR . . 19 1.6.2 ATOMIC JUMPS AND DIFFUSION 22 1.6.3 DIFFUSION MECHANISMS 23 1.7 INTERSTITIAL DIFFUSION IN METALS 27 1.7.1 NORMAL INTERSTITIAL SOLUTES 27 1.7.2 HYDROGEN DIFFUSION 29 1.8 SELF-DIFFUSION IN METALS 31 1.8.1 FACE-CENTERED CUBIC METALS 32 1.8.2 BODY-CENTERED CUBIC METALS 34 1.9 IMPURITY DIFFUSION IN METALS 35 1.9.1 NORMAL IMPURITY DIFFUSION IN FEE METALS 36 1.9.2 SLOW DIFFUSION OF TRANSITION-METAL SOLUTES IN ALUMINIUM. 39 1.9.3 FAST SOLUTE DIFFUSION IN OPEN METALS 40 1.10 SELF-DIFFUSION IN BINARY INTERMETALLICS 42 XVI CONTENTS - IN DETAIL 1.10.1 INFLUENCE OF ORDER-DISORDER TRANSITION 43 1.10.2 COUPLED DIFFUSION IN B2 INTERMETALLICS 44 1.10.3 THE CU 3 AU RULE 47 1.11 INTERDIFFUSION IN SUBSTITUTIONAL BINARY ALLOYS 49 1.11.1 BOLTZMANN-MATANO METHOD 49 1.11.2 DARKEN S EQUATIONS 51 1.11.3 DARKEN-MANNING RELATIONS 52 1.12 MULTIPHASE DIFFUSION IN BINARY SYSTEMS 53 1.13 CONCLUSION 56 REFERENCES 60 2 THE ELEMENTARY DIFFUSION STEP IN METALS STUDIED BY THE INTERFERENCE OF GAMMA-RAYS, X-RAYS AND NEUTRONS GERO VOGL, BOGDAN SEPIOL 65 2.1 INTRODUCTION 65 2.2 SELF-CORRELATION FUNCTION AND QUASIELASTIC METHODS 66 2.2.1 QUASIELASTIC METHODS: MOFIBAUER SPECTROSCOPY AND NEUTRON SCATTERING 68 2.2.2 NUCLEAR RESONANT SCATTERING OF SYNCHROTRON RADIATION. . . 73 2.2.3 NEUTRON SPIN-ECHO SPECTROSCOPY 74 2.2.4 NON-RESONANT METHODS 75 2.3 EXPERIMENTAL RESULTS 77 2.3.1 PURE METALS AND DILUTE ALLOYS 77 2.3.2 ORDERED ALLOYS 78 2.4 CONCLUSION 87 REFERENCES 89 3 DIFFUSION STUDIES OF SOLIDS BY QUASIELASTIC NEUTRON SCATTERING TASSO SPRINGER, RUEP E. LECHNER 93 3.1 INTRODUCTION 93 3.2 THE DYNAMIC STRUCTURE FACTOR 94 3.3 THE RATE EQUATION AND THE SELF-CORRELATION FUNCTION 102 3.4 HIGH RESOLUTION NEUTRON SPECTROSCOPY 106 3.5 HYDROGEN DIFFUSION IN METALS AND IN METALLIC ALLOYS 115 3.6 DIFFUSION WITH TRAPS 121 3.7 VACANCY INDUCED DIFFUSION 124 3.8 ION DIFFUSION RELATED TO IONIC CONDUCTION 126 3.9 PROTON DIFFUSION IN SOLID-STA^E PROTONIC CONDUCTORS 131 3.10 PROTON CONDUCTION: DIFFUSION MECHANISM BASED ON A CHEMICAL REACTION EQUILIBRIUM 139 3.11 TWO-DIMENSIONAL DIFFUSION 143 3.12 COHERENT QUASIELASTIC SCATTERING 149 3.13 CONCLUSION 155 REFERENCES 159 CONTENTS - IN DETAIL XVII 4 DIFFUSION IN SEMICONDUCTORS TEH YU TAN, ULRICH GOSELE 165 4.1 INTRODUCTION 165 4.2 DIFFUSION MECHANISMS AND POINT DEFECTS IN SEMICONDUCTORS 165 4.3 DIFFUSION IN SILICON 166 4.3.1 SILICON SELF-DIFFUSION 166 4.3.2 INTERSTITIAL-SUBSTITUTIONAL DIFFUSION: AU, PT AND ZN IN SI . 168 4.3.3 DOPANT DIFFUSION 172 4.3.4 DIFFUSION OF CARBON AND OTHER GROUP IV ELEMENTS 177 4.3.5 DIFFUSION OF SI SELF-INTERSTITIALS AND VACANCIES 180 4.3.6 OXYGEN AND HYDROGEN DIFFUSION 182 4.4 DIFFUSION IN GERMANIUM 183 4.5 DIFFUSION IN GALLIUM ARSENIDE 184 4.5.1 NATIVE POINT DEFECTS AND GENERAL ASPECTS 185 4.5.2 GALLIUM SELF-DIFFUSION AND SUPERLATTICE DISORDERING 187 4.5.3 ARSENIC SELF-DIFFUSION AND SUPERLATTICE DISORDERING 194 4.5.4 IMPURITY DIFFUSION IN GALLIUM ARSENIDE 196 4.5.5 DIFFUSION IN OTHER III-V COMPOUNDS 203 4.6 CONCLUSION 203 REFERENCES 205 5 DIFFUSION IN OXIDES MANFRED MARTIN 209 5.1 INTRODUCTION 209 5.2 DEFECT CHEMISTRY OF OXIDES 210 5.2.1 DOMINATING CATION DISORDER 212 5.2.2 DOMINATING OXYGEN DISORDER 215 5.3 SELF- AND IMPURITY DIFFUSION IN OXIDES 216 5.3.1 DIFFUSION IN OXIDES WITH DOMINATING CATION DISORDER .... 216 5.3.2 DIFFUSION IN OXIDES WITH DOMINATING OXYGEN DISORDER . . . 222 5.4 CHEMICAL DIFFUSION 226 5.5 DIFFUSION IN OXIDES EXPOSED TO EXTERNAL FORCES 228 5.5.1 DIFFUSION IN AN OXYGEN POTENTIAL GRADIENT 229 5.5.2 DIFFUSION IN AN ELECTRIC POTENTIAL GRADIENT 236 5.6 CONCLUSION 242 5.7 APPENDIX 243 REFERENCES 245 6 DIFFUSION IN METALLIC GLASSES AND SUPERCOOLED MELTS FRANZ FAUPEL, KLAUS RA TZKE 249 6.1 INTRODUCTION 249 6.2 CHARACTERISTICS OF DIFFUSION IN CRYSTALS 250 6.3 DIFFUSION IN SIMPLE LIQUIDS 251 6.4 GENERAL ASPECTS OF MASS TRANSPORT AND RELAXATION IN SUPERCOOLED LIQUIDS AND GLASSES 254 XVIII CONTENTS - IN DETAIL 6.5 DIFFUSION IN METALLIC GLASSES 259 6.5.1 STRUCTURE AND PROPERTIES OF METALLIC GLASSES 259 6.5.2 POSSIBLE DIFFUSION MECHANISMS 262 6.5.3 ISOTOPE EFFECT 265 6.5.4 PRESSURE DEPENDENCE 268 6.5.5 EFFECT OF EXCESS VOLUME ON DIFFUSION 269 6.6 DIFFUSION IN SUPERCOOLED AND EQUILIBRIUM MELTS 270 6.7 CONCLUSION 276 REFERENCES 278 PART II INTERFACES 7 FLUCTUATIONS AND GROWTH PHENOMENA IN SURFACE DIFFUSION MICHAEL C. TRINGIDES, MYRON HUPALO 285 7.1 INTRODUCTION 285 7.2 SURFACE DIFFUSION BEYOND A RANDOM WALK 286 7.2.1 THE ROLE OF STRUCTURE AND GEOMETRY OF THE SUBSTRATE . . . 286 7.2.2 THE ROLE OF ADSORBATE-ADSORBATE INTERACTIONS 288 7.2.3 DIFFUSION IN EQUILIBRIUM AND NON-EQUILIBRIUM CONCENTRATION GRADIENTS 290 7.3 EQUILIBRIUM MEASUREMENTS OF SURFACE DIFFUSION 297 7.3.1 EQUILIBRIUM DIFFUSION MEASUREMENTS FROM DIFFRACTION INTENSITY FLUCTUATIONS 297 7.3.2 STM TUNNELING CURRENT FLUCTUATIONS 306 7.4 NON-EQUILIBRIUM EXPERIMENTS 313 7.4.1 UNIFORM-HEIGHT PB ISLANDS ON SI(LLL) 313 7.4.2 MEASUREMENTS OF INTERLAYER DIFFUSION ON AG/AG(LLL) .... 320 7.5 CONCLUSION 331 REFERENCES 333 8 GRAIN BOUNDARY DIFFUSION IN METALS CHRISTIAN HERZIG, YURI MISHIN 337 8.1 INTRODUCTION 337 8.2 FUNDAMENTALS OF GRAIN BOUNDARY DIFFUSION 338 8.2.1 BASIC EQUATIONS OF GRAIN BOUNDARY DIFFUSION 338 8.2.2 SURFACE CONDITIONS 339 8.2.3 METHODS OF PROFILE ANALYSIS 340 8.2.4 WHAT DO WE KNOW ABOUT GRAIN BOUNDARY DIFFUSION? ... 343 8.3 CLASSIFICATION OF DIFFUSION KINETICS 347 8.3.1 HARRISON S CLASSIFICATION : 348 8.3.2 OTHER CLASSIFICATIONS . . 351 8.4 GRAIN BOUNDARY DIFFUSION AND SEGREGATION 353 8.4.1 DETERMINATION OF THE SEGREGATION FACTOR FROM GRAIN BOUNDARY DIFFUSION DATA 353 CONTENTS - IN DETAIL XIX 8.4.2 BEYOND THE LINEAR SEGREGATION 357 8.5 CONCLUSION 359 REFERENCES 364 9 NMR AND /3-NMR STUDIES OF DIFFUSION IN INTERFACE- DOMINATED AND DISORDERED SOLIDS PAUL HEITJANS, ANDREAS SCHIRMER, SYLVIO INDRIS 367 9.1 INTRODUCTION 367 9.2 INFLUENCE OF DIFFUSION ON NMR SPIN-LATTICE RELAXATION AND LINEWIDTH 369 9.3 BASICS OF NMR RELAXATION TECHNIQUES 375 9.4 METHOD OF /3-RADIATION DETECTED NMR RELAXATION 380 9.5 INTERCALATION COMPOUNDS 384 9.5.1 LITHIUM GRAPHITE INTERCALATION COMPOUNDS 384 9.5.2 LITHIUM TITANIUM DISULFIDE - HEXAGONAL VERSUS CUBIC . . . 386 9.6 NANOCRYSTALLINE MATERIALS 390 9.6.1 NANOCRYSTALLINE CALCIUM FLUORIDE 391 9.6.2 NANOCRYSTALLINE, MICROCRYSTALLINE AND AMORPHOUS LITHIUM NIOBATE 394 9.6.3 NANOCRYSTALLINE LITHIUM TITANIUM DISULFIDE 397 9.6.4 NANOCRYSTALLINE COMPOSITES OF LITHIUM OXIDE AND BORON OXIDE 399 9.7 GLASSES 402 9.7.1 INHOMOGENEOUS SPIN-LATTICE RELAXATION IN GLASSES WITH DIFFERENT SHORT-RANGE ORDER 403 9.7.2 GLASSY AND CRYSTALLINE LITHIUM ALUMINOSILICATES 405 9.8 CONCLUSION 408 9.9 APPENDIX 409 REFERENCES 411 10 PFG NMR STUDIES OF ANOMALOUS DIFFUSION JORG KARGER, FRANK STALLMACH 417 10.1 INTRODUCTION 417 10.2 THE ORIGIN OF ANOMALOUS DIFFUSION 418 10.3 FUNDAMENTALS OF PFG NMR 421 10.3.1 THE MEASURING PRINCIPLE 421 10.3.2 THE MEAN PROPAGATOR 422 10.3.3 PFG NMR AS A GENERALIZED SCATTERING EXPERIMENT 424 10.3.4 EXPERIMENTAL CONDITIONS 425 10.4 PFG NMR DIFFUSION STUDIES IN REGULAR PORE NETWORKS 427 10.4.1 THE DIFFERENT REGIMES OF DIFFUSION MEASUREMENT 428 10.4.2 INTRACRYSTALLINE SELF-DIFFUSION 430 10.4.3 CORRELATED DIFFUSION ANISOTROPY 431 10.4.4 TRANSPORT DIFFUSION VERSUS SELF-DIFFUSION 432 10.4.5 SINGLE-FILE DIFFUSION 434 XX CONTENTS - IN DETAIL 10.4.6 DIFFUSION IN ORDERED MESOPOROUS MATERIALS 437 10.5 ANOMALOUS DIFFUSION BY EXTERNAL CONFINEMENT 439 10.5.1 RESTRICTED DIFFUSION IN POLYSTYRENE MATRICES 440 10.5.2 DIFFUSION IN POROUS POLYPROPYLENE MEMBRANES 441 10.5.3 TRACING SURFACE-TO-VOLUME RATIOS 444 10.6 ANOMALOUS DIFFUSION DUE TO INTERNAL CONFINEMENT 447 10.6.1 ANOMALOUS SEGMENT DIFFUSION IN ENTANGLED POLYMER MELTS 448 10.6.2 DIFFUSION UNDER THE INFLUENCE OF HYPERSTRUCTURES IN POLYMER SOLUTIONS 450 10.6.3 DIFFUSION UNDER THE INFLUENCE OF HYPERSTRUCTURES IN POLYMER MELTS 453 10.7 CONCLUSION 455 REFERENCES 456 11 DIFFUSION MEASUREMENTS BY ULTRASONICS ROGER BIEL, MARTIN SCHUBERT, KARL ULLRICH WU RZ, WOLFGANG GRILL 461 11.1 INTRODUCTION 461 11.2 DIFFUSION OF HYDROGEN IN SINGLE-CRYSTALLINE TANTALUM 462 11.3 OBSERVATION OF DIFFUSION OF HEAVY WATER IN GELS AND LIVING CELLS BY SCANNING ACOUSTIC MICROSCOPY WITH PHASE CONTRAST .... 466 11.4 CONCLUSION 468 REFERENCES 469 12 DIFFUSION IN MEMBRANES ILPO VATTULAINEN, OLE G. MOURITSEN 471 12.1 INTRODUCTION 471 12.2 SHORT OVERVIEW OF BIOLOGICAL MEMBRANES 473 12.3 LATERAL DIFFUSION OF SINGLE MOLECULES 477 12.3.1 LATERAL TRACER DIFFUSION COEFFICIENT 477 12.3.2 METHODS TO EXAMINE LATERAL TRACER DIFFUSION 479 12.3.3 LATERAL DIFFUSION OF LIPIDS AND PROTEINS 482 12.4 ROTATIONAL DIFFUSION OF SINGLE MOLECULES 491 12.5 LATERAL COLLECTIVE DIFFUSION OF MOLECULES IN MEMBRANES 493 12.5.1 FICK S LAWS 493 12.5.2 DECAY OF DENSITY FLUCTUATIONS 494 12.5.3 RELATION BETWEEN TRACER AND COLLECTIVE DIFFUSION 495 12.5.4 METHODS TO EXAMINE LATERAL COLLECTIVE DIFFUSION 497 12.5.5 LATERAL COLLECTIVE DIFFUSION IN MODEL MEMBRANES 498 12.6 DIFFUSIVE TRANSPORT THROUGH MEMBRANES 500 12.7 CONCLUSION . 503 REFERENCES 505 CONTENTS - IN DETAIL XXI PART III LIQUIDS 13 VISCOELASTICITY AND MICROSCOPIC MOTION IN DENSE POLYMER SYSTEMS DIETER RICHTER 513 13.1 INTRODUCTION 513 13.2 THE NEUTRON SCATTERING METHOD 514 13.2.1 THE NEUTRON SPIN-ECHO TECHNIQUE VERSUS CONVENTIONAL SCATTERING 516 13.2.2 NEUTRON SPIN MANIPULATIONS WITH MAGNETIC FIELDS 516 13.2.3 THE SPIN-ECHO PRINCIPLE 518 13.3 LOCAL CHAIN DYNAMICS AND THE GLASS TRANSITION 519 13.3.1 DYNAMIC STRUCTURE FACTOR 521 13.3.2 SELF-CORRELATION FUNCTION 527 13.4 ENTROPIC FORCES - THE ROUSE MODEL 529 13.4.1 NEUTRON SPIN-ECHO RESULTS IN PDMS MELTS 531 13.4.2 COMPUTER SIMULATIONS 534 13.5 LONG-CHAINS REPTATION 537 13.5.1 THEORETICAL CONCEPTS 537 13.5.2 EXPERIMENTAL OBSERVATIONS OF CHAIN CONFINEMENT 538 13.6 INTERMEDIATE SCALE DYNAMICS 540 13.7 THE CROSSOVER FROM ROUSE TO REPTATION DYNAMICS 543 13.8 CONCLUSION 550 REFERENCES 552 14 THE MOLECULAR DESCRIPTION OF MUTUAL DIFFUSION PROCESSES IN LIQUID MIXTURES HERMANN WEINGDRTNER 555 14.1 INTRODUCTION 555 14.2 EXPERIMENTAL BACKGROUND 558 14.3 PHENOMENOLOGICAL DESCRIPTION OF MUTUAL DIFFUSION 559 14.4 THERMODYNAMICS OF MUTUAL DIFFUSION 564 14.5 LINEAR RESPONSE THEORY AND TIME CORRELATION FUNCTIONS 567 14.6 THE TIME CORRELATION FUNCTION FOR MUTUAL DIFFUSION 569 14.7 PROPERTIES OF DISTINCT-DIFFUSION COEFFICIENTS 571 14.8 INFORMATION ON INTERMOLECULAR INTERACTIONS DEDUCED FROM DIFFUSION DATA 573 14.9 CONCLUSION 576 REFERENCES 577 15 DIFFUSION MEASUREMENTS IN FLUIDS BY DYNAMIC LIGHT SCATTERING ALFRED LEIPERTZ, ANDREAS P. FROBA 579 15.1 INTRODUCTION 579 XXII CONTENTS - IN DETAIL 15.2 BASIC PRINCIPLES 580 15.2.1 SPECTRUM OF SCATTERED LIGHT 580 15.2.2 CORRELATION TECHNIQUE 582 15.2.3 HOMODYNE AND HETERODYNE TECHNIQUES 587 15.3 THE DYNAMIC LIGHT SCATTERING EXPERIMENT 589 15.3.1 SETUP 589 15.3.2 SIGNAL STATISTICS AND DATA EVALUATION 594 15.4 THERMOPHYSICAL PROPERTIES OF FLUIDS MEASURED BY DYNAMIC LIGHT SCATTERING 597 15.4.1 THERMAL DIFFUSIVITY 597 15.4.2 MUTUAL DIFFUSION COEFFICIENT 600 15.4.3 DYNAMIC VISCOSITY 601 15.4.4 SOUND VELOCITY AND SOUND ATTENUATION 604 15.4.5 LANDAU-PLACZEK RATIO 606 15.4.6 SORET COEFFICIENT 606 15.4.7 DERIVABLE PROPERTIES 607 15.5 RELATED TECHNIQUES 608 15.5.1 SURFACE LIGHT SCATTERING 608 15.5.2 FORCED RAYLEIGH SCATTERING 613 15.6 CONCLUSION 615 REFERENCES 617 16 DIFFUSION IN COLLOIDAL AND POLYMERIC SYSTEMS GERHARD NDGELE, JAN K. G. DHONT, GERHARD MEIER 619 16.1 INTRODUCTION 619 16.2 PRINCIPLES OF QUASIELASTIC LIGHT SCATTERING 620 16.2.1 THE SCATTERED ELECTRIC FIELD STRENGTH 620 16.2.2 DYNAMIC LIGHT SCATTERING 624 16.2.3 DYNAMIC STRUCTURE FACTORS 626 16.3 HEURISTIC CONSIDERATIONS ON DIFFUSION PROCESSES 628 16.3.1 VERY DILUTE COLLOIDAL SYSTEMS 629 16.3.2 DIFFUSION MECHANISMS IN CONCENTRATED COLLOIDAL SYSTEMS. 636 16.4 FLUORESCENCE TECHNIQUES FOR LONG-TIME SELF-DIFFUSION OF NON-SPHERICAL PARTICLES 660 16.4.1 FLUORESCENCE RECOVERY AFTER PHOTOBLEACHING 661 16.4.2 FLUORESCENCE CORRELATION SPECTROSCOPY 669 16.5 THEORETICAL AND EXPERIMENTAL RESULTS ON DIFFUSION OF COLLOIDAL SPHERES AND POLYMERS 675 16.5.1 COLLOIDAL SPHERES , 676 16.5.2 POLYMER BLENDS AND RANDOM PHASE APPROXIMATION 697 16.6 CONCLUSION 709 REFERENCES 712 CONTENTS - IN DETAIL XXIII 17 FIELD-ASSISTED DIFFUSION STUDIED BY ELECTROPHORETIC NMR MANFRED HOLZ 717 17.1 INTRODUCTION 717 17.2 PRINCIPLES OF ELECTROPHORETIC NMR 719 17.2.1 ELECTROPHORESIS 719 17.2.2 PULSED FIELD GRADIENT NMR FOR THE STUDY OF DRIFT VELOCITIES 720 17.3 NMR IN PRESENCE OF AN ELECTRIC DIRECT CURRENT. TECHNICAL REQUIREMENTS, PROBLEMS AND SOLUTIONS 725 17.4 ENMR SAMPLE CELLS 727 17.5 ENMR EXPERIMENTS (ID, 2D AND 3D) AND APPLICATION EXAMPLES 728 17.5.1 ID ENMR APPLICATIONS 729 17.5.2 2D AND 3D EXPERIMENTS 734 17.5.3 MOBILITY AND VELOCITY DISTRIBUTIONS. POLYDISPERSITY AND ELECTRO-OSMOTIC FLOW 737 17.6 CONCLUSION 738 REFERENCES 741 PART IV THEORETICAL CONCEPTS AND MODELS 18 DIFFUSION OF PARTICLES ON LATTICES KLAUS W. KEHR, KIARESCH MUSSAWISADE, GUNTER M. SCHILTZ, THOMAS WICHMANN 745 18.1 INTRODUCTION 745 18.2 ONE PARTICLE ON UNIFORM LATTICES 748 18.2.1 THE MASTER EQUATION 748 18.2.2 SOLUTION OF THE MASTER EQUATION 749 18.2.3 DIFFUSION COEFFICIENT 751 18.2.4 EXTENSIONS 752 18.3 ONE PARTICLE ON DISORDERED LATTICES 753 18.3.1 MODELS OF DISORDER 753 18.3.2 EXACT EXPRESSION FOR THE DIFFUSION COEFFICIENT IN D = 1 ... 755 18.3.3 APPLICATIONS OF THE EXACT RESULT 757 18.3.4 FREQUENCY DEPENDENCE IN D = 1: EFFECTIVE-MEDIUM APPROXIMATION 758 18.3.5 HIGHER-DIMENSIONAL LATTICES: APPROXIMATIONS 762 18.3.6 HIGHER-DIMENSIONAL LATTICES: APPLICATIONS 766 18.3.7 REMARKS ON OTHER MODELS 769 18.4 MANY PARTICLES ON UNIFORM LATTICES 771 18.4.1 LATTICE GAS (SITE EXCLUSION) MODEL 771 18.4.2 COLLECTIVE DIFFUSION 772 18.4.3 TRACER DIFFUSION FOR D 1 773 18.4.4 TAGGED-PARTICLE DIFFUSION ON A LINEAR CHAIN 774 18.5 MANY PARTICLES ON DISORDERED LATTICES 778 XXIV CONTENTS - IN DETAIL 18.5.1 MODELS WITH SYMMETRIC RATES 778 18.5.2 SELECTED RESULTS FOR THE COEFFICIENT OF COLLECTIVE DIFFUSION IN THE RANDOM SITE-ENERGY MODEL 780 18.6 CONCLUSION 783 18.7 APPENDIX 784 18.7.1 DERIVATION OF THE RESULT FOR THE DIFFUSION COEFFICIENT FOR ARBITRARILY DISORDERED TRANSITION RATES 784 18.7.2 DERIVATION OF THE SELF-CONSISTENCY CONDITION FOR THE EFFECTIVE-MEDIUM APPROXIMATION 787 18.7.3 RELATION BETWEEN THE RELATIVE DISPLACEMENT AND THE DENSITY CHANGE 789 REFERENCES 790 19 DIFFUSION ON FRACTALS UWE RENNER, GUNTER M. SCHU TZ, GIINTER VOJTA 793 19.1 INTRODUCTION: WHAT A FRACTAL IS 793 19.2 ANOMALOUS DIFFUSION: PHENOMENOLOGY 797 19.3 STOCHASTIC THEORY OF DIFFUSION ON FRACTALS 802 19.4 ANOMALOUS DIFFUSION: DYNAMICAL DIMENSIONS 803 19.5 ANOMALOUS DIFFUSION AND CHEMICAL KINETICS 806 19.6 CONCLUSION 809 REFERENCES 810 20 IONIC TRANSPORT IN DISORDERED MATERIALS ARMIN BUNDE, WOLFGANG DIETERICH, PHILIPP MAASS, MARTIN MEYER 813 20.1 INTRODUCTION 813 20.2 BASIC QUANTITIES 816 20.2.1 TRACER DIFFUSION 816 20.2.2 DYNAMIC CONDUCTIVITY 817 20.2.3 PROBABILITY DISTRIBUTION AND INCOHERENT NEUTRON SCATTERING 817 20.2.4 SPIN-LATTICE RELAXATION 818 20.3 ION-CONDUCTING GLASSES: MODELS AND NUMERICAL TECHNIQUE 819 20.4 DISPERSIVE TRANSPORT 822 20.5 NON-ARRHENIUS BEHAVIOR 832 20.6 COUNTERION MODEL AND THE NEARLY CONSTANT DIELECTRIC LOSS RESPONSE 835 20.7 COMPOSITIONAL ANOMALIES 839 20.8 ION-CONDUCTING POLYMERS 843 20.8.1 LATTICE MODEL OF POLYMER ELECTROLYTES 843 20.8.2 DIFFUSION THROUGH A POLYMER NETWORK: DYNAMIC PERCOLATION APPROACH 846 20.8.3 DIFFUSION IN STRETCHED POLYMERS 849 20.9 CONCLUSION 850 REFERENCES 852 CONTENTS - IN DETAIL XXV 21 CONCEPT OF MISMATCH AND RELAXATION FOR SELF-DIFFUSION AND CONDUCTION IN IONIC MATERIALS WITH DISORDERED STRUCTURE KLAUS FUNKE, CORNELIA CRAMER, DIRK WILMER 857 21.1 INTRODUCTION 857 21.2 CONDUCTIVITY SPECTRA OF ION CONDUCTING MATERIALS 861 21.3 RELEVANT FUNCTIONS AND SOME MODEL CONCEPTS FOR ION TRANSPORT IN DISORDERED SYSTEMS 864 21.4 CMR EQUATIONS AND MODEL CONDUCTIVITY SPECTRA 867 21.5 SCALING PROPERTIES OF MODEL CONDUCTIVITY SPECTRA 871 21.6 PHYSICAL CONCEPT OF THE CMR 874 21.7 COMPLETE CONDUCTIVITY SPECTRA OF SOLID ION CONDUCTORS 877 21.8 ION DYNAMICS IN A FRAGILE SUPERCOOLED MELT 880 21.9 CONDUCTIVITIES OF GLASSY AND CRYSTALLINE ELECTROLYTES BELOW 10MHZ 883 21.10 LOCALISED MOTION AT LOW TEMPERATURES 887 21.11 CONCLUSION 891 REFERENCES 892 22 DIFFUSION AND CONDUCTION IN PERCOLATION SYSTEMS ARMIN BUNDE, JAN W. KANTELHARDT 895 22.1 INTRODUCTION 895 22.2 THE (SITE-)PERCOLATION MODEL 895 22.3 THE FRACTAL STRUCTURE OF PERCOLATION CLUSTERS NEAR P C 897 22.4 FURTHER PERCOLATION SYSTEMS 901 22.5 DIFFUSION ON REGULAR LATTICES 903 22.6 DIFFUSION ON PERCOLATION CLUSTERS 904 22.7 CONDUCTIVITY OF PERCOLATION CLUSTERS 905 22.8 FURTHER ELECTRICAL PROPERTIES 906 22.9 APPLICATION OF THE PERCOLATION CONCEPT: HETEROGENEOUS IONIC CONDUCTORS 908 22.9.1 INTERFACIAL PERCOLATION AND THE LIANG EFFECT 908 22.9.2 COMPOSITE MICRO- AND NANOCRYSTALLINE CONDUCTORS 910 22.10 CONCLUSION 912 REFERENCES 913 23 STATISTICAL THEORY AND MOLECULAR DYNAMICS OF DIFFUSION IN ZEOLITES REINHOLD HABERLANDT 915 23.1 INTRODUCTION 915 23.2 SOME NOTIONS AND RELATIONS OF STATISTICAL PHYSICS 916 23.2.1 STATISTICAL THERMODYNAMICS 916 23.2.2 STATISTICAL THEORY OF IRREVERSIBLE PROCESSES 919 23.3 MOLECULAR DYNAMICS 922 23.3.1 GENERAL REMARKS 922 23.3.2 PROCEDURE OF AN MD SIMULATION 923 XXVI CONTENTS - IN DETAIL 23.3.3 METHODICAL HINTS 925 23.4 SIMULATION OF DIFFUSION IN ZEOLITES 925 23.4.1 INTRODUCTION 925 23.4.2 SIMULATIONS 926 23.4.3 RESULTS 928 23.5 CONCLUSION 942 REFERENCES 944 LIST OF CONTRIBUTORS 949 INDEX 955
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spelling	Diffusion in condensed matter methods, materials, models Paul Heitjans ... [(ed.)] Berlin [u.a.] Springer 2005 XXVI, 965 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Condensed matter Diffusion Diffusion processes Kondensierte Materie (DE-588)4132810-3 gnd rswk-swf Diffusion (DE-588)4012277-3 gnd rswk-swf Festkörper (DE-588)4016918-2 gnd rswk-swf 1\p (DE-588)4143413-4 Aufsatzsammlung gnd-content 2\p (DE-588)1071861417 Konferenzschrift 1996 Leipzig gnd-content Festkörper (DE-588)4016918-2 s Diffusion (DE-588)4012277-3 s DE-604 Kondensierte Materie (DE-588)4132810-3 s 3\p DE-604 Heitjans, Paul 1946- Sonstige (DE-588)1200416309 oth DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012934218&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Diffusion in condensed matter methods, materials, models Condensed matter Diffusion Diffusion processes Kondensierte Materie (DE-588)4132810-3 gnd Diffusion (DE-588)4012277-3 gnd Festkörper (DE-588)4016918-2 gnd
subject_GND	(DE-588)4132810-3 (DE-588)4012277-3 (DE-588)4016918-2 (DE-588)4143413-4 (DE-588)1071861417
title	Diffusion in condensed matter methods, materials, models
title_auth	Diffusion in condensed matter methods, materials, models
title_exact_search	Diffusion in condensed matter methods, materials, models
title_full	Diffusion in condensed matter methods, materials, models Paul Heitjans ... [(ed.)]
title_fullStr	Diffusion in condensed matter methods, materials, models Paul Heitjans ... [(ed.)]
title_full_unstemmed	Diffusion in condensed matter methods, materials, models Paul Heitjans ... [(ed.)]
title_short	Diffusion in condensed matter
title_sort	diffusion in condensed matter methods materials models
title_sub	methods, materials, models
topic	Condensed matter Diffusion Diffusion processes Kondensierte Materie (DE-588)4132810-3 gnd Diffusion (DE-588)4012277-3 gnd Festkörper (DE-588)4016918-2 gnd
topic_facet	Condensed matter Diffusion Diffusion processes Kondensierte Materie Festkörper Aufsatzsammlung Konferenzschrift 1996 Leipzig
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012934218&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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