The physics and chemistry of materials:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York, NY [u.a.]
Wiley
2001
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| Schriftenreihe: | A Wiley-Intersience publication
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXIX, 826 S. Ill., graph. Darst. |
| ISBN: | 0471057940 9780471057949 |
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| 245 | 1 | 0 | |a The physics and chemistry of materials |c Joel I. Gersten ; Frederick W. Smith |
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Datensatz im Suchindex
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THE PHYSICS AND CHEMISTRY OF MATERIALS JOEL I. GERSTEN FREDERICK W.
SMITH THE CITY COLLEGE OF THE CITY UNIVERSITY OF NEW YORK A
WILEY-INTERSCIENCE PUBLICATION JOHN WILEY & SONS, INC. NEW YORK *
CHICHESTER * WEINHEIM * BRISBANE * SINGAPORE * TORONTO CONTENTS PREFACE
XXIII LIST OF TABLES XXVII INTRODUCTION 1 SECTION I STRUCTURE OF
MATERIALS 1 STRUCTURE OF CRYSTALS 5 1.1 INTRODUCTION 5 INTRODUCTION TO
LATTICES 6 1.2 TRANSLATION VECTORS 6 1.3 UNIT CELLS 8 1.4 BRAVAIS
LATTICES 8 1.5 LATTICE AXES, PLANES, AND DIRECTIONS 11 LOCAL ATOMIC
BONDING UNITS AND CRYSTAL STRUCTURES 14 1.6 LOCAL ATOMIC BONDING UNITS
15 1.7 CRYSTAL STRUCTURES 20 1.8 PACKING FRACTIONS AND DENSITIES 32
REFERENCES 34 PROBLEMS 35 TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) WL.L CRYSTAL
STRUCTURES BASED ON ICOSAHEDRAL BONDING UNITS W1.2 PACKING FRACTIONS
OFBCC AND CSCL CRYSTAL STRUCTURES W1.3 DENSITY OF CSCL PROBLEM 2 BONDING
IN SOLIDS 37 2.1 INTRODUCTION 37 BONDING IN ELEMENTAL SOLIDS 39 2.2
COVALENT BONDING 40 2.3 METALLIC BONDING 44 2.4 VAN DER WAALS BONDING 45
BONDING IN MULTIELEMENT CRYSTALS 47 2.5 IONIC BONDING 48 2.6 MIXED
IONIC-COVALENT BONDING AND IONICITY 53 2.7 HYDROGEN BONDING 53 VII VIII
CONTENTS COHESIVE ENERGIES 54 SUMMARY OF SOME ATOMIC PROPERTIES AND
PARAMETERS 57 2.8 IONIZATION ENERGY AND ELECTRON AFFINITY 58 2.9
ELECTRONEGATIVITY 58 2.10 ATOMIC RADII: IONIC, COVALENT, METALLIC, AND
VAN DER WAALS 60 REFERENCES 65 PROBLEMS 65 TOPICS AT THE WEB SITE
{FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W2.1 ATOMIC, HYBRID,
AND MOLECULAR ORBITALS INVOLVED IN BONDING IN SOLID-STATE MATERIALS W2.2
ABSENCE OF COVALENT BONDING IN WHITE SN (FI-SN) AND PB W2.3 MADELUNG
ENERGY OF IONIC CRYSTALS W2.4 HYDROGEN BONDING IN ICE (SOLID H 2 O) W2.5
STANDARD ENTHALPIES OF FORMATION W2.6 BOND ENERGIES W2.7 IONIZATION
ENERGIES AND ELECTRON AFFINITIES W2.8 VALENCE W2.9 ELECTRONEGATIVITY
W2.10 ATOMIC RADII REFERENCES PROBLEMS 3 DIFFRACTION AND THE RECIPROCAL
LATTICE 67 DIFFRACTION 67 3.1 FOURIER ANALYSIS IN ONE AND THREE
DIMENSIONS 68 3.2 EXAMPLES OF RECIPROCAL LATTICES 71 ELASTIC SCATTERING
FROM ORDERED AND DISORDERED MATERIALS 73 3.3 CRYSTALLINE SOLIDS 75 3.4
BRAGG AND VON LAUE DESCRIPTIONS OF DIFFRACTION 77 3.5 POLYCRYSTALLINE
SOLIDS OR POWDERS 78 3.6 ELASTIC SCATTERING FROM AN AMORPHOUS SOLID 81
REFERENCES 82 PROBLEMS 83 TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W3.1 VORONOI
POLYHEDRA W3.2 MOLECULAR GEOMETRY AND BASIS STRUCTURE FROM DIFFRACTION
DATA REFERENCE PROBLEM 4 ORDER AND DISORDER IN SOLIDS 85 4.1
INTRODUCTION 85 ORDER AND DISORDER 86 4.2 EXAMPLES OF ORDERED AND
DISORDERED SOLIDS 91 4.3 AMORPHOUS SOLIDS 96 CONTENTS IX DEFECTS IN
SOLIDS 100 4.4 LOCALIZED DEFECTS 103 4.5 EXTENDED DEFECTS 106 4.6
THERMODYNAMICS OF DEFECT FORMATION: ENTROPY 111 4.7 EXAMPLES OF DEFECT
STUDIES 115 REFERENCES 117 PROBLEMS 117 TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-.MED/MATERIALS) W4.1 FURTHER
DISCUSSION OF THE RANDOM CLOSE-PACKING MODEL W4.2 FURTHER DISCUSSION OF
THE CONTINUOUS RANDOM NETWORK MODEL W4.3 ILLUSTRATIONS OF THE LAW OF
MASS ACTION W4.4 NONSTOICHIOMETRY REFERENCE SECTION II PHYSICAL
PROPERTIES OF MATERIALS 5 PHONONS 121 EXCITATIONS OF THE LATTICE:
PHONONS 121 5.1 ONE-DIMENSIONAL MONATOMIC LATTICE 122 5.2
ONE-DIMENSIONAL DIATOMIC LATTICE 126 5.3 PHONONS: GENERAL CASE 128 5.4
PHONON DENSITY OF STATES 130 LATTICE SPECIFIC HEAT OF SOLIDS 133 5.5
SPECIFIC HEAT OF SOLIDS 134 5.6 DEBYE THEORY OF SPECIFIC HEAT 135 5.7
EINSTEIN THEORY OF SPECIFIC HEAT 138 5.8 DEBYE-WALLER FACTOR 139
ANHARMONIC EFFECTS 139 5.9 THERMAL EXPANSION 140 5.10 THERMAL
CONDUCTIVITY 144 REFERENCES 150 PROBLEMS 151 TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W5.I MONATOMIC
LATTICE WITH RANDOM INTERACTIONS W5.2 DEBYE-WALLER FACTOR APPENDIX W5A:
QUANTIZATION OF ELASTIC WAVES APPENDIX W5B: DISPERSION RELATIONS IN THE
GENERAL CASE APPENDIX W5C: VAN HOVE SINGULARITIES 6 THERMALLY ACTIVATED
PROCESSES, PHASE DIAGRAMS, AND PHASE TRANSITIONS 153 6.1 INTRODUCTION
153 THERMALLY ACTIVATED PROCESSES 153 CONTENTS 6.2 DIFFUSION 153 6.3
VAPORIZATION 160 EQUILIBRIUM PHASE DIAGRAMS 161 6.4 PURE SUBSTANCES 162
6.5 BINARY SYSTEMS 163 STRUCTURAL PHASE TRANSITIONS 173 6.6 MELTING 173
6.7 SOLID-STATE PHASE TRANSITIONS 178 REFERENCES 184 PROBLEMS 185 TOPICS
AT THE WEB SITE (FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W6.1
CONCENTRATION PROFILES RESULTING FROM DIFFUSION W6.2 EXAMPLES OF
DIFFUSION STUDIES W6.3 EXAMPLES OF VAPORIZATION STUDIES W6.4 GIBBS PHASE
RULE PROBLEMS 7 ELECTRONS IN SOLIDS: ELECTRICAL AND THERMAL PROPERTIES
187 7.1 INTRODUCTION 187 CLASSICAL THEORY OF ELECTRICAL CONDUCTION 188
7.2 DRUDE THEORY 188 7.3 HALL EFFECT IN METALS 190 FREE-ELECTRON GASES
191 7.4 SOMMERFELD THEORY 191 TRANSPORT THEORY 196 7.5 ONSAGER RELATIONS
196 THE QUANTUM THEORY OF SOLIDS 197 7.6 BLOCH'S THEOREM 197 7.7 NEARLY
FREE ELECTRON APPROXIMATION 200 7.8 TIGHT-BINDING APPROXIMATION IN ONE
DIMENSION 204 7.9 TIGHT-BINDING APPROXIMATION IN TWO DIMENSIONS 207 7.10
METALS, INSULATORS, SEMICONDUCTORS, AND SEMIMETALS 209 QUANTUM EFFECTS
IN ELECTRICAL CONDUCTION 211 7.11 TEMPERATURE DEPENDENCE OF RESISTIVITY
IN METALS 211 7.12 SEMICONDUCTORS 212 7.13 MAGNETORESISTANCE 214
CONDUCTION IN INSULATORS 216 7.14 VARIABLE-RANGE HOPPING 216 7.15
POOLE-FRENKEL EFFECT 218 METAL-INSULATOR TRANSITION 219 7.16 PERCOLATION
219 7.17 MOTT METAL-INSULATOR TRANSITION 222 CONDUCTIVITY OF
REDUCED-DIMENSIONAL SYSTEMS 223 7.18 CARBON NANOTUBES 223 CONTENTS XI
7.19 LANDAUER THEORY OF CONDUCTION 228 REFERENCES 229 PROBLEMS 229
TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W7.1 BOLTZMANN
EQUATION W7.2 RANDOM TIGHT-BINDING APPROXIMATION W7.3 KRONIG-PENNEY
MODEL W7.4 HALL EFFECT IN BAND THEORY W7.5 LOCALIZATION W7.6 PROPERTIES
OF CARBON NANOTUBES APPENDIX W7A: EVALUATION OF FERMI INTEGRALS 8
OPTICAL PROPERTIES OF MATERIALS 231 8.1 INTRODUCTION 231 8.2 THE
ELECTROMAGNETIC SPECTRUM 232 8.3 AC CONDUCTIVITY OF METALS 233 8.4
REFLECTIVITY 234 8.5 OPTICAL PROPERTIES OF SEMICONDUCTORS 241 8.6
OPTICAL DIELECTRIC FUNCTION 243 8.7 KRAMERS-KRONIG RELATIONS 245 8.8
OPTICAL PROPERTIES OF COMPOSITE MEDIA 246 8.9 NONLINEAR POLARIZATION 247
8.10 EXCITONS 250 8.11 COLOR CENTERS 253 8.12 POLARITONS 254 8.13
EMISSIVITY 254 REFERENCES 258 PROBLEMS 258 TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W8.1 INDEX ELLIPSOID
AND PHASE MATCHING W8.2 POLARITONS APPENDIX W8A: MAXWELL'S EQUATIONS
APPENDIX W8B: NONLOCAL DIELECTRIC FUNCTION APPENDIX W8C:
QUANTUM-MECHANICAL DERIVATION OF THE DIELECTRIC FUNCTION 9 MAGNETIC
PROPERTIES OF MATERIALS 261 9.1 INTRODUCTION 261 ORIGINS OF MAGNETISM IN
SOLIDS 261 9.2 FREE ATOMS AND IONS 261 9.3 ATOMS AND IONS IN SOLIDS 266
TYPES OF MAGNETISM AND MAGNETIC BEHAVIOR IN MATERIALS 276 9.4
PARAMAGNETISM 278 9.5 INTERACTIONS BETWEEN MAGNETIC MOMENTS 283 9.6
FERROMAGNETISM 287 XJI CONTENTS 9.7 ANTIFERROMAGNETISM 297 9.8
FERRIMAGNETISM 301 9.9 MAGNETIC BEHAVIOR OF ELECTRONS IN CLOSED SHELLS
AND OF CONDUCTION ELECTRONS 304 REFERENCES 309 PROBLEMS 309 TOPICS AT
THE WEB SITE (FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W9.1
JAHN-TELLER EFFECT W9.2 EXAMPLES OF WEAK AND STRONG CRYSTAL FIELD
EFFECTS W9.3 CRYSTAL FIELDS AND CR 34 " IN A1 2 O^ W9.4 EXPERIMENTAL
RESULTS FOR X IN THE FREE-SPIN LIMIT W9.5 SPIN GLASSES AND THE RKKY
INTERACTION W9.6 KONDO EFFECT AND S-D INTERACTION W9.7 X (T)FORNI W9.8
HUBBARD MODEL W9.9 MICROSCOPIC ORIGINS OF MAGNETOCRYSTALLINE ANISOTROPY
W9.I0 X\\ AND X FAR ANTIFERROMAGNETIC MATERIALS W9.1I MAGNETISM IN
DISORDERED MATERIALS REFERENCES PROBLEMS 10 MECHANICAL PROPERTIES OF
MATERIALS 311 10.1 INTRODUCTION 311 STRESS, STRAIN, AND ELASTIC
CONSTANTS 311 10.2 STRESS 312 10.3 STRAIN 314 10.4 RELATIONSHIPS BETWEEN
STRESS AND STRAIN: ELASTIC CONSTANTS 317 ELASTIC PROPERTIES OF MATERIALS
320 10.5 HOOKE'S LAW, YOUNG'S MODULUS, AND SHEAR MODULUS 320 10.6
COMPRESSIBILITY AND BULK MODULUS 323 10.7 POISSON'S RATIO 324 10.8
ISOTROPIC SOLIDS: RELATIONSHIPS BETWEEN THE ELASTIC MODULI 325 10.9
ELASTIC POTENTIAL ENERGY 326 10.10 ELASTIC WAVES 327 ANELASTIC
PROPERTIES OF MATERIALS 330 10.11 MACROSCOPIC ASPECTS OF ANELASTICITY
330 10.12 MICROSCOPIC ASPECTS OF ANELASTICITY 332 INELASTIC PROPERTIES
OF MATERIALS 334 10.13 MACROSCOPIC ASPECTS OF PLASTICITY AND FRACTURE
335 10.14 MICROSCOPIC ASPECTS OF PLASTICITY AND FRACTURE 341 REFERENCES
351 PROBLEMS 351 TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W10.1 RELATIONSHIP
OF HOOKE'S LAW TO THE INTERATOMIC U(R) W10.2 ZENER MODEL FOR
ANELASTICITY CONTENTS XIII W10.3 TYPICAL RELAXATION TIMES FOR
MICROSCOPIC PROCESSES W10.4 FURTHER DISCUSSION OF WORK HARDENING W10.5
STRENGTHENING MECHANISMS W10.6 CREEP TESTING W10.7 FURTHER DISCUSSION OF
FATIGUE W10.8 HARDNESS TESTING W10.9 FURTHER DISCUSSION OF HALL-PETCH
RELATION W10.10 ANALYSIS OF CRACK PROPAGATION REFERENCE PROBLEMS SECTION
III CLASSES OF MATERIALS 11 SEMICONDUCTORS 357 11.1 INTRODUCTION 357
CHARACTERISTIC PROPERTIES OF SEMICONDUCTORS 357 MICROSCOPIC PROPERTIES
359 11.2 ENERGY-BAND STRUCTURE AND ENERGY GAPS 359 11.3 DYNAMICS OF
ELECTRON MOTION 366 11.4 EXCITED STATES OF ELECTRONS 367 11.5 DOPING AND
DEFECTS 374 11.6 DIMENSIONALITY AND QUANTUM CONFINEMENT 382 MACROSCOPIC
PROPERTIES 387 11.7 ELECTRICAL CONDUCTIVITY AND MOBILITY 388 11.8
EFFECTS OF MAGNETIC FIELDS 394 11.9 OPTICAL PROPERTIES 396 EXAMPLES OF
SEMICONDUCTORS 404 11.10 ELEMENTAL SEMICONDUCTORS AND THEIR COMPOUNDS
AND ALLOYS 405 11.11 COMPOUND SEMICONDUCTORS AND THEIR ALLOYS 409
APPLICATIONS OF SEMICONDUCTORS 419 11.12 CRITICAL ISSUES 419 11.13
SPECIFIC APPLICATIONS 434 REFERENCES 439 PROBLEMS 440 TOPICS AT THE WEB
SITE (FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) WLL.L DETAILS
OF THE CALCULATION OF N(T) FOR AN N-TYPE SEMICONDUCTOR W11.2 EFFECTS OF
DOPING ON RESISTIVITY OF SILICON W1I.3 OPTICAL ABSORPTION EDGE OF
SILICON WI1.4 THERMOELECTRIC EFFECTS WI1.5 DIELECTRIC MODEL FOR BONDING
W11.6 NONSTANDARD SEMICONDUCTORS W11.7 FURTHER DISCUSSION OF
NONEQUILIBRIUM EFFECTS AND RECOMBINATION W11.8 TRANSISTORS XJV CONTENTS
WU.9 QUANTUM HALL EFFECT W 11.10 PHOTOVOLTAIC SOLAR CELLS WLL.L 1
THERMOELECTRIC DEVICES APPENDIX W11A: LANDAU LEVELS REFERENCES PROBLEMS
12 METALS AND ALLOYS 443 12.1 INTRODUCTION 443 THREE CLASSES OF METALS
444 12.2 SP-BONDED METALS 444 12.3 TRANSITION METALS 449 12.4 RARE EARTH
METALS 451 ALLOYS 452 12.5 HUME-ROTHERY RULES 453 12.6 ELECTRICAL
RESISTANCE OF METALLIC ALLOYS 455 EXAMPLES AND APPLICATIONS OF METALLIC
ALLOYS 457 12.7 STEEL 457 12.8 INTERMETALLIC COMPOUNDS AND SUPERALLOYS
458 12.9 ELECTROMIGRATION 462 REFERENCES 463 PROBLEMS 464 TOPICS AT THE
WEB SITE (FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W12.1
DENSITY-FUNCTIONAL THEORY W12.2 EMBEDDED-ATOM METHOD W12.3 PEIERLS
INSTABILITY W12.4 CORROSION AND OXIDATION W12.5 COATINGS W12.6
SHAPE-MEMORY ALLOYS W12.7 METALLIC GLASSES W12.8 METAL HYDRIDES W12.9
SOLDER JOINTS AND THEIR FAILURE W12.10 POROUS METALS REFERENCES 13
CERAMICS 465 13.1 INTRODUCTION 465 13.2 PAULING BONDING RULES 467 13.3
IONIC INTERACTIONS 469 APPLICATIONS 471 13.4 REFRACTORIES 471 13.5
SILICON NITRIDE 475 13.6 ZEOLITES 477 13.7 GLASSES 481 REFERENCES 488
CONTENTS XV PROBLEMS 489 TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W13.1 TERNARY PHASE
DIAGRAMS W13.2 SILICATES W13.3 CLAY W13.4 CEMENT APPENDIX W13A: RADIUS
RATIOS AND POLYHEDRAL COORDINATION REFERENCES PROBLEMS 14 POLYMERS 491
14.1 INTRODUCTION 491 STRUCTURE OF POLYMERS 492 14.2 GEOMETRY OF
POLYMERS 495 14.3 POLYMER CRYSTALS 497 14.4 DEFECTS IN POLYMERS 498
MECHANICAL PROPERTIES 501 14.5 POLYMERS UNDER TENSION 502 14.6
VISCOELASTICITY 506 THERMAL PROPERTIES , 510 14.7 THERMAL PROPERTIES OF
POLYMERS 510 APPLICATIONS 514 14.8 STRUCTURAL PLASTICS 514 14.9
POLYMERIC IONIC CONDUCTORS 515 14.10 PHOTORESISTS 516 14.11
PIEZOELECTRIC POLYMERS 517 14.12 LIQUID CRYSTALS 519 REFERENCES 522
PROBLEMS 523 TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W14.1 STRUCTURE OF
IDEAL LINEAR POLYMERS W14.2 SELF-AVOIDING WALKS W14.3 PERSISTENCE LENGTH
W14.4 FREE-VOLUME THEORY W14.5 POLYMERIC FOAMS W14.6 POROUS FILMS W14.7
ELECTRICAL CONDUCTIVITY OF POLYMERS W14.8 POLYMERS AS NONLINEAR OPTICAL
MATERIALS PROBLEMS 15 DIELECTRIC AND FERROELECTRIC MATERIALS 525 15.1
INTRODUCTION 525 15.2 LORENTZ OSCILLATOR MODEL FOR THE DIELECTRIC
FUNCTION 525 15.3 DIELECTRIC PROPERTIES OF IONIC CRYSTALS 529 XVI
CONTENTS 15.4 DIELECTRIC BREAKDOWN 530 APPLICATIONS 533 15.5
FERROELECTRIC PHASE TRANSITIONS 533 15.6 FERROELECTRICITY AND
PIEZOELECTRICITY 536 15.7 THERMISTORS 541 15.8 VARISTORS 543 15.9
^-ALUMINAS AND IONIC TRANSPORT IN SOLIDS 545 REFERENCES 547 PROBLEMS 547
TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W15.1 CAPACITORS
W15.2 SUBSTRATES W15.3 FIRST-ORDER FERROELECTRIC PHASE TRANSITIONS W15.4
NONVOLATILE FERROELECTRIC RANDOM-ACCESS MEMORY W15.5 QUARTZ CRYSTAL
OSCILLATOR W15.6 LITHIUM-ION BATTERY W15.7 FUEL CELLS REFERENCES PROBLEM
16 SUPERCONDUCTORS 549 16.1 INTRODUCTION 549 CHARACTERISTIC PROPERTIES
OF SUPERCONDUCTORS 550 16.2 MACROSCOPIC PROPERTIES AND MODELS 551 16.3
MICROSCOPIC PROPERTIES AND MODELS 571 EXAMPLES OF SUPERCONDUCTORS 581
16.4 METALLIC ELEMENTS 581 16.5 OXIDE-BASED CERAMICS 582 APPLICATIONS OF
SUPERCONDUCTORS 589 16.6 CRITICAL ISSUES 589 16.7 SPECIFIC APPLICATIONS
595 REFERENCES 599 PROBLEMS 599 TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W16.1 FURTHER
DISCUSSION OF THERMAL CONDUCTIVITY IN SUPERCONDUCTORS W16.2 TWO-FLUID
MODEL W16.3 SUPERCONDUCTING ALLOYS OF METALLIC ELEMENTS W16.4
SUPERCONDUCTING INTERMETALLIC COMPOUNDS W16.5 FURTHER DISCUSSION OF
STRUCTURE, BONDING, COMPOSITION, AND NORMAL-STATE PROPERTIES OF THE
OXIDE-BASED CERAMIC SUPERCONDUCTORS W16.6 FURTHER DISCUSSION OF
SUPERCONDUCTING-STATE PROPERTIES OF THE OXIDE-BASED CERAMIC
SUPERCONDUCTORS W16.7 UNUSUAL SUPERCONDUCTORS W16.8 FURTHER DISCUSSION
OF CRITICAL CURRENTS CONTENTS XVII W16.9 FURTHER DISCUSSION OF
LARGE-SCALE APPLICATIONS W16.10 JOSEPHSON EFFECTS W 16.11 SQUIDS AND
OTHER SMALL-SCALE APPLICATIONS REFERENCE PROBLEMS 17 MAGNETIC MATERIALS
603 17.1 INTRODUCTION 603 CHARACTERISTIC PROPERTIES OF MAGNETIC
MATERIALS 603 17.2 MAGNETIC MICROSTRUCTURE AND DOMAINS 604 17.3
MAGNETIZATION PROCESSES AND MAGNETIZATION CURVES 611 17.4 MAGNETICALLY
HARD AND SOFT MATERIALS 616 17.5 EFFECTS OF MAGNETIC ANISOTROPY 617 17.6
EFFECTS OF SHAPE AND SIZE 620 IMPORTANT EFFECTS IN MAGNETIC MATERIALS
622 17.7 MAGNETOSTRICTION 623 17.8 MAGNETORESISTANCE 626 17.9
MAGNETO-OPTICAL EFFECTS 627 17.10 DYNAMIC MAGNETIC EFFECTS 628 EXAMPLES
AND APPLICATIONS OF MAGNETIC MATERIALS 629 17.11 HARD MAGNETIC MATERIALS
631 17.12 SOFT MAGNETIC MATERIALS 635 REFERENCES 641 PROBLEMS 641 TOPICS
AT THE WEB SITE (FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH_MED/MATERIALS)
W17.1 DETAILS ON DOMAIN STRUCTURES W17.2 DETAILS ON SIZE AND SHAPE
EFFECTS W17.3 DETAILS ON MAGNETOSTRICTION W17.4 GIANT AND COLOSSAL
MAGNETORESISTANCE W17.5 FARADAY AND KERR EFFECTS W17.6 DETAILS ON
DYNAMIC MAGNETIC EFFECTS W17.7 TECHNOLOGICALLY IMPORTANT MAGNETIC
MATERIALS WI7.8 DETAILS ON PERMANENT-MAGNET MATERIALS W17.9 DETAILS ON
MAGNETIC RECORDING MATERIALS W17.10 DETAILS ON MAGNETO-OPTICAL RECORDING
MATERIALS W17.LL DETAILS ON FE ALLOYS AND ELECTRICAL STEELS W17.12
DETAILS ON MATERIALS FOR READ/WRITE HEADS W17.13 DETAILS ON
MAGNETOSTRICTIVE MATERIALS W17.14 DILUTE MAGNETIC SEMICONDUCTORS
REFERENCES PROBLEMS 18 OPTICAL MATERIALS 645 18.1 INTRODUCTION 645
PROPAGATION OF LIGHT 646 XVIII CONTENTS 18.2 OPTICAL FIBERS 646
GENERATION OF LIGHT 650 18.3 LASERS 650 18.4 LIGHT-EMITTING DIODES AND
SEMICONDUCTOR LASERS 653 18.5 CERAMICS FOR LASERS 657 18.6 BANDGAP
ENGINEERING OF OPTICAL MATERIALS 659 RECORDING OF LIGHT 662 18.7
PHOTOGRAPHY 662 18.8 PHOTOCONDUCTORS AND XEROGRAPHY 666 18.9
ELECTRO-OPTIC EFFECT AND PHOTOREFRACTIVE MATERIALS 668 REFERENCES 674
PROBLEMS 675 TOPICS AT THE WEB SITE
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W18.1 OPTICAL
POLARIZERS W18.2 FARADAY ROTATION W18.3 THEORY OF OPTICAL BAND STRUCTURE
W18.4 DAMAGE REFERENCES PROBLEM SECTION IV SURFACES, THIN FILMS,
INTERFACES, AND MULTILAYERS 19 SURFACES 679 19.1 INTRODUCTION 679 19.2
IDEAL SURFACES 680 REAL SURFACES 682 19.3 RELAXATION 682 19.4
RECONSTRUCTION 685 19.5 SURFACE DEFECTS 687 ELECTRONIC PROPERTIES OF
SURFACES 690 19.6 WORK FUNCTION 690 19.7 THERMIONIC EMISSION 693 19.8
FIELD EMISSION 695 19.9 PHOTOEMISSION 697 19.10 SURFACE STATES 698
SURFACE MODIFICATION 699 19.11 ANODIZATION 699 19.12 PASSIVATION 700
19.13 SURFACE PHONONS 702 19.14 SURFACE PROCESSES 705 ADHESION AND
FRICTION 707 19.15 SURFACE PLASMONS 707 19.16 DISPERSION FORCES 708
CONTENTS XIX 19.17 FRICTION 710 REFERENCES 713 PROBLEMS 713 TOPICS AT
THE WEB SITE (FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W19.1
SURFACE STATES W19.2 SURFACTANTS W19.3 ADSORPTION W19.4 DESORPTION W19.5
SURFACE DIFFUSION W19.6 CATALYSIS W19.7 FRICTION APPENDIX W19A:
CONSTRUCTION OF THE SURFACE NET APPENDIX W19B: FOWLER-NORDHEIM FORMULA
APPENDIX W19C: PHOTOEMISSION YIELDS 20 THIN FILMS, INTERFACES, AND
MULTILAYERS 715 20.1 INTRODUCTION 715 THIN FILMS 716 20.2 SURFACE
TENSION 716 20.3 THIN-FILM FABRICATION 718 20.4 MORPHOLOGY MAPS 721 20.5
LANGMUIR-BLODGETT FILMS 723 INTERFACES 725 20.6 GRAIN BOUNDARIES 726
20.7 BAND BENDING IN SEMICONDUCTORS 729 20.8 SCHOTTKY BARRIER 732 20.9
SEMICONDUCTOR-HETEROSTRUCTURE SUPERLATTICES 734 20.10 QUANTUM DOT 737
20.11 SI/A-SIO 2 INTERFACE 740 MULTILAYERS 742 20.12 X-RAY MIRRORS 742
20.13 HARDNESS OF MULTILAYERS 743 20.14 STOICHIOMETRIC OPTIMIZATION OF
PHYSICAL PARAMETERS 744 REFERENCES 746 PROBLEMS 747 TOPICS AT THE WEB
SITE (FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W20.1 STRENGTH
AND TOUGHNESS W20.2 CRITICAL THICKNESS W20.3 IONIC SOLUTIONS W20.4
SOLID-ELECTROLYTE INTERFACE W20.5 MULTILAYER MATERIALS W20.6
SECOND-HARMONIC GENERATION IN PHASE-MATCHED MULTILAYERS W20.7 ORGANIC
LIGHT-EMITTING DIODES W20.8 QUASIPERIODIC NONLINEAR OPTICAL CRYSTALS
W20.9 GRAPHITE INTERCALATED COMPOUNDS XX CONTENTS REFERENCES PROBLEM
SECTION V SYNTHESIS AND PROCESSING OF MATERIALS 21 SYNTHESIS AND
PROCESSING OF MATERIALS 751 21.1 INTRODUCTION 751 ISSUES IN SYNTHESIS
AND PROCESSING 752 21.2 THERMODYNAMIC AND CHEMICAL EFFECTS 753 21.3
KINETIC EFFECTS 757 21.4 CRYSTAL GROWTH 762 21.5 ANNEALING 764 SYNTHESIS
AND PROCESSING OF SEMICONDUCTORS 767 21.6 CZOCHRALSKI GROWTH OF
SINGLE-CRYSTAL SILICON 768 21.7 THERMAL OXIDATION OF SILICON 771 21.8
FABRICATION OF SILICON DEVICES 775 SYNTHESIS AND PROCESSING OF METALS
778 21.9 SYNTHESIS AND PROCESSING OF STEELS 779 21.10 SYNTHESIS AND
PROCESSING OF STAINLESS STEELS 785 SYNTHESIS AND PROCESSING OF CERAMICS
AND GLASSES 787 21.11 POWDER SYNTHESIS 788 21.12 SOL-GEL SYNTHESIS 790
SYNTHESIS AND PROCESSING OF POLYMERS AND CARBON MOLECULES 792 21.13
POLYMERIZATION 792 21.14 CATALYSTS IN POLYMER SYNTHESIS 794 21.15
SYNTHESIS OF CARBON NANOTUBES 796 REFERENCES 798 PROBLEMS 799 TOPICS AT
THE WEB SITE (FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W21.1
SYNTHESIS AND PROCESSING PROCEDURES W21.2 HETEROEPITAXIAL GROWTH W21.3
PROCESSING USING ION BEAMS W21.4 FLOAT-ZONE PURIFICATION OF
SINGLE-CRYSTAL SI W21.5 EPITAXIAL GROWTH OF SINGLE-CRYSTAL SI LAYERS VIA
CVD W21.6 MOLECULAR-BEAM EPITAXIAL GROWTH OFGAAS W21.7 PLASMA-ENHANCED
CVD OF AMORPHOUS SEMICONDUCTORS W21.8 FABRICATION OF SI DEVICES W21.9
PROCESSING OF MICWELECTROMECHANICAL SYSTEMS W21.10 SYNTHESIS AND
PROCESSING OF STEELS W21.LL PRECIPITATION HARDENING OF ALUMINUM ALLOYS
W21.12 SYNTHESIS OF METALS VIA RAPID SOLIDIFICATION W21.I3 SURFACE
TREATMENTS FOR METALS W21.14 CHEMICAL VAPOR DEPOSITION OF DIAMOND W21.15
SYNTHESIS OF YBA 2 CU I O 1 - X CONTENTS XXI W21.16 SYNTHESIS OF SHN A
W21.17 SYNTHESIS OF SIC W21.18 SYNTHESIS OF THE ZEOLITE ZSM-5 W21.19
SYNTHESIS OF THE PEROVSKITE PLZT W21.20 SYNTHESIS OF GLASSES: PILKINGTON
PROCESS W21.21 SYNTHESIS OF POLYCARBONATE W21.22 SYNTHESIS OF
POLYSTYRENE W21.23 SYNTHESIS OF ELECTRO-ACTIVE POLYMERS W21.24 SPIN
COATING W21.25 MICROWAVE AND PLASMA PROCESSING OF POLYMERS REFERENCES
PROBLEMS 22 CHARACTERIZATION OF MATERIALS
(FTP://FTP.WILEY.COM/PUBLIC/SCI-TECH-MED/MATERIALS) W22.1 INTRODUCTION
DIFFRACTION TECHNIQUES W22.2 X-RAY DIFFRACTION W22.3 LOW-ENERGY ELECTRON
DIFFRACTION W22.4 REFLECTION HIGH-ENERGY ELECTRON DIFFRACTION W22.5
NEUTRON SCATTERING OPTICAL SPECTROSCOPY W22.6 OPTICAL SPECTROSCOPY IN
THE INFRARED, VISIBLE, AND ULTRAVIOLET W22.7 ELLIPSOMETRY W22.8 FOURIER
TRANSFORM INFRARED SPECTROSCOPY W22.9 RAMAN SPECTROSCOPY W22.10
LUMINESCENCE W22.LL NONLINEAR OPTICAL SPECTROSCOPY ELECTRON MICROSCOPY
W22.12 SCANNING-ELECTRON MICROSCOPY W22.13 TRANSMISSION-ELECTRON
MICROSCOPY W22.14 HIGH-RESOLUTION TRANSMISSION-ELECTRON MICROSCOPY
W22.15 LOW-ENERGY ELECTRON MICROSCOPY ELECTRON SPECTROSCOPY AND ION
SCATTERING W22.16 PHOTOEMISSION W22.17 LOW-ENERGY ELECTRON LOSS
SPECTROSCOPY W22.18 EXTENDED X-RAY ABSORPTION FINE STRUCTURE W22.19
AUGER EMISSION SPECTROSCOPY W22.20 SECONDARY-ION MASS SPECTROMETRY
W22.21 RUTHERFORD BACKSCATTERING SURFACE MICROSCOPY W22.22 ATOMIC-FORCE
MICROSCOPY W22.23 SCANNING-TUNNELING MICROSCOPE W22.24 LATERAL-FORCE
MICROSCOPE AND SURFACE FORCE APPARATUS TRANSPORT MEASUREMENTS W22.25
ELECTRICAL RESISTIVITY AND HALL EFFECT XXII CONTENTS W22.26 THERMOPOWER,
PELTIER COEFFICIENT, AND THERMAL CONDUCTIVITY MAGNETIC MEASUREMENTS
W22.27 FONER MAGNETOMETER W22.28 FARADAY BALANCE W22.29 AC BRIDGE
RESONANCE TECHNIQUES W22.30 NUCLEAR MAGNETIC RESONANCE W22.31 NUCLEAR
QUADRUPOLE RESONANCE W22.32 ELECTRON-SPIN RESONANCE W22.33 MOSSBAUER
SPECTROSCOPY ELEMENTARY PARTICLES W22.34 POSITRON-ANNIHILATION
SPECTROSCOPY W22.35 MUON-PRECESSION SPECTROSCOPY APPENDIX W22A:
QUANTUM-MECHANICAL DESCRIPTION OF NMR REFERENCES PROBLEMS APPENDIX WA:
THERMODYNAMICS APPENDIX WB: STATISTICAL MECHANICS APPENDIX WC: QUANTUM
MECHANICS MATERIALS INDEX 803 INDEX 811 |
| any_adam_object | 1 |
| author | Gersten, Joel I. Smith, Frederick W. |
| author_facet | Gersten, Joel I. Smith, Frederick W. |
| author_role | aut aut |
| author_sort | Gersten, Joel I. |
| author_variant | j i g ji jig f w s fw fws |
| building | Verbundindex |
| bvnumber | BV013817596 |
| classification_rvk | UP 1000 UQ 8000 VE 9670 ZM 3000 ZM 3100 |
| ctrlnum | (OCoLC)314067059 (DE-599)BVBBV013817596 |
| dewey-full | 541.0421 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 541 - Physical chemistry |
| dewey-raw | 541.0421 |
| dewey-search | 541.0421 |
| dewey-sort | 3541.0421 |
| dewey-tens | 540 - Chemistry and allied sciences |
| discipline | Chemie / Pharmazie Physik Werkstoffwissenschaften / Fertigungstechnik |
| format | Book |
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| id | DE-604.BV013817596 |
| illustrated | Illustrated |
| indexdate | 2024-09-06T00:13:26Z |
| institution | BVB |
| isbn | 0471057940 9780471057949 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-009448448 |
| oclc_num | 314067059 |
| open_access_boolean | |
| owner | DE-20 DE-703 DE-19 DE-BY-UBM DE-92 DE-29T DE-1051 DE-1046 DE-526 DE-634 DE-11 DE-355 DE-BY-UBR DE-384 |
| owner_facet | DE-20 DE-703 DE-19 DE-BY-UBM DE-92 DE-29T DE-1051 DE-1046 DE-526 DE-634 DE-11 DE-355 DE-BY-UBR DE-384 |
| physical | XXIX, 826 S. Ill., graph. Darst. |
| publishDate | 2001 |
| publishDateSearch | 2001 |
| publishDateSort | 2001 |
| publisher | Wiley |
| record_format | marc |
| series2 | A Wiley-Intersience publication |
| spelling | Gersten, Joel I. Verfasser aut The physics and chemistry of materials Joel I. Gersten ; Frederick W. Smith New York, NY [u.a.] Wiley 2001 XXIX, 826 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier A Wiley-Intersience publication Física del estado sólido Materiales Química del estado sólido Werkstoff (DE-588)4065579-9 gnd rswk-swf Chemische Eigenschaft (DE-588)4371174-1 gnd rswk-swf Physikalische Eigenschaft (DE-588)4134738-9 gnd rswk-swf Festkörperphysik (DE-588)4016921-2 gnd rswk-swf Werkstoff (DE-588)4065579-9 s Physikalische Eigenschaft (DE-588)4134738-9 s DE-604 Chemische Eigenschaft (DE-588)4371174-1 s Festkörperphysik (DE-588)4016921-2 s Smith, Frederick W. Verfasser aut HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009448448&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Gersten, Joel I. Smith, Frederick W. The physics and chemistry of materials Física del estado sólido Materiales Química del estado sólido Werkstoff (DE-588)4065579-9 gnd Chemische Eigenschaft (DE-588)4371174-1 gnd Physikalische Eigenschaft (DE-588)4134738-9 gnd Festkörperphysik (DE-588)4016921-2 gnd |
| subject_GND | (DE-588)4065579-9 (DE-588)4371174-1 (DE-588)4134738-9 (DE-588)4016921-2 |
| title | The physics and chemistry of materials |
| title_auth | The physics and chemistry of materials |
| title_exact_search | The physics and chemistry of materials |
| title_full | The physics and chemistry of materials Joel I. Gersten ; Frederick W. Smith |
| title_fullStr | The physics and chemistry of materials Joel I. Gersten ; Frederick W. Smith |
| title_full_unstemmed | The physics and chemistry of materials Joel I. Gersten ; Frederick W. Smith |
| title_short | The physics and chemistry of materials |
| title_sort | the physics and chemistry of materials |
| topic | Física del estado sólido Materiales Química del estado sólido Werkstoff (DE-588)4065579-9 gnd Chemische Eigenschaft (DE-588)4371174-1 gnd Physikalische Eigenschaft (DE-588)4134738-9 gnd Festkörperphysik (DE-588)4016921-2 gnd |
| topic_facet | Física del estado sólido Materiales Química del estado sólido Werkstoff Chemische Eigenschaft Physikalische Eigenschaft Festkörperphysik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009448448&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT gerstenjoeli thephysicsandchemistryofmaterials AT smithfrederickw thephysicsandchemistryofmaterials |