Principles of electronic materials and devices:
Gespeichert in:
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| Format: | Buch |
| Sprache: | English |
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New Delhi [u.a.]
Tata McGraw-Hill
2006
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| Ausgabe: | 3. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIII, 874 S. Ill., graph. Darst. CD-ROM (12 cm) |
| ISBN: | 0072957913 0070607966 0071244581 |
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| 650 | 7 | |a Circuits électriques |2 ram | |
| 650 | 7 | |a Dispositifs électromécaniques |2 ram | |
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| adam_text | PRINCIPLES OF ELECTRONIC MATERIALS AND DEVICES THIRD EDITION S. O. KASAP
UNIVERSITY OF SASKATCHEWAN CANADA MC GRAW HILL HIGHER EDUCATION BOSTON
BURR RIDGE, IL DUBUQUE, IA MADISON, WL NEW YORK SAN FRANCISCO ST. LOUIS
BANGKOK BOGOTA CARACAS KUALA LUMPUR LISBON LONDON MADRID MEXICO CITY
MILAN MONTREAL NEW DELHI SANTIAGO SEOUL SINGAPORE SYDNEY TAIPEI TORONTO
CONTENTS PREFACE XI CHAPTER 1 ELEMENTARY MATERIALS SCIENCE CONCEPTS 3
1.1 ATOMIC STRUCTURE AND ATOMIC NUMBER 3 1.2 ATOMIC MASS AND MOLE 8 1.3
BONDING AND TYPES OF SOLIDS 9 1.3.1 MOLECULES AND GENERAL BONDING
PRINCIPLES 9 1.3.2 COVALENTLY BONDED SOLIDS: DIAMOND 11 1.3.3 METALLIC
BONDING: COPPER 13 1.3.4 IONICALLY BONDED SOLIDS: SALT 14 1.3.5
SECONDARY BONDING 18 1.3.6 MIXED BONDING 22 1.4 KINETIC MOLECULAR THEORY
25 1.4.1 MEAN KINETIC ENERGY AND TEMPERATURE 25 1.4.2 THERMAL EXPANSION
31 1.5 MOLECULAR VELOCITY AND ENERGY DISTRIBUTION 36 1.6 HEAT, THERMAL
FLUCTUATIONS, AND NOISE 40 1.7 THERMALLY ACTIVATED PROCESSES 45 1.7.1
ARRHENIUS RATE EQUATION 45 1.7.2 ATOMIC DIFFUSION AND THE DIFFUSION
COEFFICIENT 47 1.8 THE CRYSTALLINE STATE 49 1.8.1 TYPES OF CRYSTALS 49
1.8.2 CRYSTAL DIRECTIONS AND PLANES 56 1.8.3 ALLOTROPY AND CARBON 61 1.9
CRYSTALLINE DEFECTS AND THEIR SIGNIFICANCE 64 1.9.1 POINT DEFECTS:
VACANCIES AND IMPURITIES 64 1.9.2 LINE DEFECTS: EDGE AND SCREW
DISLOCATIONS 68 1.9.3 PLANAR DEFECTS: GRAIN BOUNDARIES 70 1.9.4 CRYSTAL
SURFACES AND SURFACE PROPERTIES 73 1.9.5 STOICHIOMETRY,
NONSTOICHIOMETRY, AND DEFECT STRUCTURES 75 1.10 SINGLE-CRYSTAL
CZOCHRALSKI GROWTH 76 1.11 GLASSES AND AMORPHOUS SEMICONDUCTORS 78
1.11.1 GLASSES AND AMORPHOUS SOLIDS 78 1.11.2 CRYSTALLINE AND AMORPHOUS
SILICON 80 1.12 SOLID SOLUTIONS AND TWO-PHASE SOLIDS 83 1.12.1
ISOMORPHOUS SOLID SOLUTIONS: ISOMORPHOUS ALLOYS 83 1.12.2 PHASE
DIAGRAMS: CU-NI AND OTHER ISOMORPHOUS ALLOYS 84 1.12.3 ZONE REFINING AND
PURE SILICON CRYSTALS 88 1.12.4 BINARY EUTECTIC PHASE DIAGRAMS AND PB-SN
SOLDERS 90 ADDITIONAL TOPICS 95 1.13 BRAVAIS LATTICES 95 CD SELECTED
TOPICS AND SOLVED PROBLEMS 98 DEFINING TERMS 98 QUESTIONS AND PROBLEMS
102 CHAPTER 2 ELECTRICAL AND THERMAL CONDUCTION IN SOLIDS 113 2.1
CLASSICAL THEORY: THE DRUDE MODEL 114 2.1.1 METALS AND CONDUCTION BY
ELECTRONS 114 2.2 TEMPERATURE DEPENDENCE OF RESISTIVITY: IDEAL PURE
METALS 122 2.3 MATTHIESSEN S AND NORDHEIM S RULES 125 2.3.1
MATTHIESSEN S RULE AND THE TEMPERATURE COEFFICIENT OF RESISTIVITY (A)
125 VI CONTENTS 2.3.2 SOLID SOLUTIONS AND NORDHEIM S RULE 134 2.4
RESISTIVITY OF MIXTURES AND POROUS MATERIALS 139 2.4.1 HETEROGENEOUS
MIXTURES 139 2.4.2 TWO-PHASE ALLOY (AG-NI) RESISTIVITY AND ELECTRICAL
CONTACTS 143 2.5 THE HALL EFFECT AND HALL DEVICES 145 2.6 THERMAL
CONDUCTION 149 2.6.1 THERMAL CONDUCTIVITY 149 2.6.2 THERMAL RESISTANCE
153 2.7 ELECTRICAL CONDUCTIVITY OF NONMETALS 154 2.7.1 SEMICONDUCTORS
155 2.7.2 IONIC CRYSTALS AND GLASSES 159 ADDITIONAL TOPICS 163 2.8 SKIN
EFFECT: HF RESISTANCE OF A CONDUCTOR 163 2.9 THIN METAL FILMS 166 2.9.1
CONDUCTION IN THIN METAL FILMS 166 2.9.2 RESISTIVITY OF THIN FILMS 167
2.10 INTERCONNECTS IN MICROELECTRONICS 172 2.11 ELECTROMIGRATION AND
BLACK S EQUATION 176 CD SELECTED TOPICS AND SOLVED PROBLEMS 178 DEFINING
TERMS 178 QUESTIONS AND PROBLEMS 180 CHAPTER 3 ELEMENTARY QUANTUM
PHYSICS 191 3.1 PHOTONS 191 3.1.1 LIGHT ASAWAVE 191 3.1.2 THE
PHOTOELECTRIC EFFECT 194 3.1.3 COMPTON SCATTERING 199 3.1.4 BLACK BODY
RADIATION 202 3.2 THE ELECTRON AS A WAVE 205 3.2.1 DE BROGLIE
RELATIONSHIP 205 3.2.2 TIME-INDEPENDENT SCHROEDINGER EQUATION 208 3.3
INFINITE POTENTIAL WELL: A CONFINED ELECTRON 212 3.4 HEISENBERG S
UNCERTAINTY PRINCIPLE 217 3.5 TUNNELING PHENOMENON: QUANTUM LEAK 221 3.6
POTENTIAL BOX: THREE QUANTUM NUMBERS 228 3.7 HYDROGENIC ATOM 231 3.7.1
ELECTRON WAVEFUNCTIONS 231 3.7.2 QUANTIZED ELECTRON ENERGY 236 3.7.3
ORBITAL ANGULAR MOMENTAN AND SPACE QUANTIZATION 241 3.7.4 ELECTRON SPIN
AND INTRINSIC ANGULAR MOMENTUM S 245 3.7.5 MAGNETIC DIPOLE MOMENT OF THE
ELECTRON 248 3.7.6 TOTAL ANGULAR MOMENTUM J 252 3.8 THE HELIUM ATOM AND
THE PERIODIC TABLE 254 3.8.1 HE ATOM AND PAULI EXCLUSION PRINCIPLE 254
3.8.2 HUND S RULE 256 3.9 STIMULATED EMISSION AND LASERS 258 3.9.1
STIMULATED EMISSION AND PHOTON AMPLIFICATION 258 3.9.2 HELIUM-NEON LASER
261 3.9.3 LASER OUTPUT SPECTRUM 265 ADDITIONAL TOPICS 267 3.10 OPTICAL
FIBER AMPLIFIERS 267 CD SELECTED TOPICS AND SOLVED PROBLEMS 268 DEFINING
TERMS 269 QUESTIONS AND PROBLEMS 272 CHAPTER 4 MODERN THEORY OF SOLIDS
285 4.1 HYDROGEN MOLECULE: MOLECULAR ORBITAL THEORY OF BONDING 285 4.2
BAND THEORY OF SOLIDS 291 4.2.1 ENERGY B AND FORM ATION 291 4.2.2
PROPERTIES OF ELECTRONS IN A BAND 296 4.3 SEMICONDUCTORS 299 4.4
ELECTRON EFFECTIVE MASS 303 4.5 DENSITY OF STATES IN AN ENERGY BAND 305
4.6 STATISTICS: COLLECTIONS OF PARTICLES 312 4.6.1 BOLTZMANN CLASSICAL
STATISTICS 312 4.6.2 FERMI-DIRAC STATISTICS 313 4.7 QUANTUM THEORY OF
METALS 315 4.7.1 FREE ELECTRON MODEL 315 4.7.2 CONDUCTION IN METALS 318
CONTENTS VII 4.8 FERMI ENERGY SIGNIFICANCE 320 4.8.1 METAL-METAL
CONTACTS: CONTACT POTENTIAL 320 4.8.2 THE SEEBECK EFFECT AND THE
THERMOCOUPLE 322 4.9 THERMIONIC EMISSION AND VACUUM TUBE DEVICES 328
4.9.1 THERMIONIC EMISSION: RICHARDSON- DUSHMAN EQUATION 328 4.9.2
SCHOTTKY EFFECT AND FIELD EMISSION 332 4.10 PHONONS 337 4.10.1 HARMONIE
OSCILLATOR AND LATTICE WAVES 337 4.10.2 DEBYE HEAT CAPACITY 342 4.10.3
THERMAL CONDUCTIVITY OF NONMETALS 348 4.10.4 ELECTRICAL CONDUCTIVITY 350
ADDITIONAL TOPICS 352 4.11 BAND THEORY OF METALS: ELECTRON DIFFRACTION
IN CRYSTALS 352 4.12 GRUENEISEN S MODEL OF THERMAL EXPANSION 361 CD
SELECTED TOPICS AND SOLVED PROBLEMS 363 DEFINING TERMS 363 QUESTIONS AND
PROBLEMS 365 CHAPTER 5 SEMICONDUCTORS 373 5.1 INTRINSIC SEMICONDUCTORS
374 5.1.1 SILICON CRYSTAL AND ENERGY BAND DIAGRAM 374 5.1.2 ELECTRONS
AND HOLES 376 5.1.3 CONDUCTION IN SEMICONDUCTORS 378 5.1.4 ELECTRON AND
HOLE CONCENTRATIONS 380 5.2 EXTRINSIC SEMICONDUCTORS 388 5.2.1 N-TYPE
DOPING 388 5.2.2 -TYPE DOPING 390 5.2.3 COMPENSATION DOPING 392 5.3
TEMPERATURE DEPENDENCE OF CONDUCTIVITY 396 5.3.1 CARRIER CONCENTRATION
TEMPERATURE DEPENDENCE 396 5.3.2 DRIFT MOBILITY: TEMPERATURE AND
IMPURITY DEPENDENCE 401 5.3.3 CONDUCTIVITY TEMPERATURE DEPENDENCE 404
5.3.4 DEGENERATE AND NONDEGENERATE SEMICONDUCTORS 406 5.4 RECOMBINATION
AND MINORITY CARRIER INJECTION 407 5.4.1 DIRECT AND INDIRECT
RECOMBINATION 407 5.4.2 MINORITY CARRIER LIFETIME 410 5.5 DIFFUSION AND
CONDUCTION EQUATIONS, AND RANDOM MOTION 416 5.6 CONTINUITY EQUATION 422
5.6.1 TIME-DEPENDENT CONTINUITY EQUATION 422 5.6.2 STEADY-STATE
CONTINUITY EQUATION 424 5.7 OPTICAL ABSORPTION 427 5.8 PIEZORESISTIVITY
431 5.9 SCHOTTKY JUNCTION 435 5.9.1 SCHOTTKY DIODE 435 5.9.2 SCHOTTKY
JUNCTION SOLAR CELL 440 5.10 OHMIC CONTACTS AND THERMOELECTRIC COOLERS
443 ADDITIONAL TOPICS 448 5.11 DIRECT AND INDIRECT BANDGAP
SEMICONDUCTORS 448 5.12 INDIRECT RECOMBINATION 457 5.13 AMORPHOUS
SEMICONDUCTORS 458 CD SELECTED TOPICS AND SOLVED PROBLEMS 461 DEFINING
TERMS 461 QUESTIONS AND PROBLEMS 464 CHAPTER 6 SEMICONDUCTOR DEVICES 475
6.1 IDEAL PN JUNCTION 476 6.1.1 NO APPLIED BIAS: OPEN CIRCUIT 476 6.1.2
FORWARD BIAS: DIFFUSION CURRENT 481 6.1.3 FORWARD BIAS: RECOMBINATION
AND TOTAL CURRENT 487 6.1.4 REVERSE BIAS 489 6.2 PN JUNCTION BAND
DIAGRAM 494 6.2.1 OPEN CIRCUIT 494 6.2.2 FORWARD AND REVERSE BIAS 495
VIII CONTENTS 6.3 DEPLETION LAYER CAPACITANCE OF THE PN JUNCTION 498 6.4
DIFFUSION (STORAGE) CAPACITANCE AND DYNAMIC RESISTANCE 500 6.5 REVERSE
BREAKDOWN: AVALANCHE AND ZENER BREAKDOWN 502 6.5.1 AVALANCHE BREAKDOWN
503 6.5.2 ZENER BREAKDOWN 504 6.6 BIPOLAR TRANSISTOR (BJT) 506 6.6.1
COMMON BASE (CB) DE CHARACTERISTICS 506 6.6.2 COMMON BASE AMPLIFIER 515
6.6.3 COMMON EMITTER (CE) DE CHARACTERISTICS 517 6.6.4 LOW-FREQUENCY
SMALL-SIGNAL MODEL 518 6.7 JUNCTION FIELD EFFECT TRANSISTOR (JFET) 522
6.7.1 GENERAL PRINCIPLES 522 6.7.2 JFET AMPLIFIER 528 6.8
METAL-OXIDE-SEMICONDUCTOR FIELD EFFECT TRANSISTOR (MOSFET) 532 6.8.1
FIELD EFFECT AND INVERSION 532 6.8.2 ENHANCEMENT MOSFET 535 6.8.3
THRESHOLD VOLTAGE 539 6.8.4 ION IMPLANTED MOS TRANSISTORS AND POLY-SI
GATES 541 6.9 LIGHT EMITTING DIODES (LED) 543 6.9.1 LED PRINCIPLES 543
6.9.2 HETEROJUNCTION HIGH-INTENSITY LEDS 547 6.9.3 LED CHARACTERISTICS
548 6.10 SOLAR CELLS 551 6.10.1 PHOTOVOLTAIC DEVICE PRINCIPLES 551
6.10.2 SERIES AND SHUNT RESISTANCE 559 6.10.3 SOLAR CELL MATERIALS,
DEVICES, AND EFFICIENCIES 561 ADDITIONAL TOPICS 564 6.11 PIN DIODES,
PHOTODIODES, AND SOLAR CELLS 564 6.12 SEMICONDUCTOR OPTICAL AMPLIFIERS
AND LASERS 566 CD SELECTED TOPICS AND SOLVED PROBLEMS 570 DEFINING TERMS
570 QUESTIONS AND PROBLEMS 573 CHAPTER 7 DIELECTRIC MATERIALS AND
INSULATION 583 7.1 MATTER POLARIZATION AND RELATIVE PERMITTIVITY 584
7.1.1 RELATIVE PERMITTIVITY: DEFINITION 584 7.1.2 DIPOLE MOMENT AND
ELECTRONIC POLARIZATION 585 7.1.3 POLARIZATION VECTOR P 589 7.1.4 LOCAL
FIELD I OC AND CLAUSIUS-MOSSOTTI EQUATION 593 7.2 ELECTRONIC
POLARIZATION: COVALENT SOLIDS 595 7.3 POLARIZATION MECHANISMS 597 7.3.1
IONIC POLARIZATION 597 7.3.2 ORIENTATIONAL (DIPOLAR) POLARIZATION 598
7.3.3 INTERFACIAL POLARIZATION 600 7.3.4 TOTAL POLARIZATION 601 7.4
FREQUENCY DEPENDENCE: DIELECTRIC CONSTANT AND DIELECTRIC LOSS 603 7.4.1
DIELECTRIC LOSS 603 7.4.2 DEBYE EQUATIONS, COLE-COLE PLOTS, AND
EQUIVALENT SERIES CIRCUIT 611 7.5 GAUSS S LAW AND BOUNDARY CONDITIONS
614 7.6 DIELECTRIC STRENGTH AND INSULATION BREAKDOWN 620 7.6.1
DIELECTRIC STRENGTH: DEFINITION 620 7.6.2 DIELECTRIC BREAKDOWN AND
PARTIAL DISCHARGES: GASES 621 7.6.3 DIELECTRIC BREAKDOWN: LIQUIDS 622
7.6.4 DIELECTRIC BREAKDOWN: SOLIDS 623 7.7 CAPACITOR DIELECTRIC
MATERIALS 631 7.7.1 TYPICAL CAPACITOR CONSTRUCTIONS 631 7.7.2
DIELECTRICS: COMPARISON 634 7.8 PIEZOELECTRICITY, FERROELECTRICITY, AND
PYROELECTRICITY 638 7.8.1 PIEZOELECTRICITY 638 7.8.2 PIEZOELECTRICITY:
QUARTZ OSCILLATORS AND FILTERS 644 7.8.3 FERROELECTRIC AND PYROELECTRIC
CRYSTALS 647 CONTENTS IX ADDITIONAL TOPICS 654 7.9 ELECTRIC DISPLACEMENT
AND DEPOLARIZATION FIELD 654 7.10 LOCAL FIELD AND THE LORENTZ EQUATION
658 7.11 DIPOLAR POLARIZATION 660 7.12 IONIC POLARIZATION AND DIELECTRIC
RESONANCE 662 7.13 DIELECTRIC MIXTURES AND HETEROGENEOUS MEDIA 667 CD
SELECTED TOPICS AND SOLVED PROBLEMS 669 DEFINING TERMS 670 QUESTIONS AND
PROBLEMS 673 CHAPTER 8 MAGNETIC PROPERTIES AND SUPERCONDUCTIVITY 685 8.1
MAGNETIZATION OF MATTER 685 8.1.1 MAGNETIC DIPOLE MOMENT 685 8.1.2
ATOMIC MAGNETIC MOMENTS 687 8.1.3 MAGNETIZATION VECTOR M 688 8.1.4
MAGNETIZING FIELD OR MAGNETIC FIELD INTENSITY H 691 8.1.5 MAGNETIC
PERMEABILITY AND MAGNETIC SUSCEPTIBILITY 692 8.2 MAGNETIC MATERIAL
CLASSIFICATIONS 696 8.2.1 DIAMAGNETISM 696 8.2.2 PARAMAGNETISM 698 8.2.3
FERROMAGNETISM 699 8.2.4 ANTIFERROMAGNETISM 699 8.2.5 FERRIMAGNETISM 700
8.3 FERROMAGNETISM ORIGIN AND THE EXCHANGE INTERACTION 700 8.4
SATURATION MAGNETIZATION AND CURIE TEMPERATURE 703 8.5 MAGNETIC DOMAINS:
FERROMAGNETIC MATERIALS 705 8.5.1 MAGNETIC DOMAINS 705 8.5.2
MAGNETOCRYSTALLINE ANISOTROPY 706 8.5.3 DOMAIN WALLS 708 8.5.4
MAGNETOSTRICTION 711 8.5.5 DOMAIN WALL MOTION 712 8.5.6 POLYCRYSTALLINE
MATERIALS AND THE M VERSUS H BEHAVIOR 713 8.5.7 DEMAGNETIZATION 717 8.6
SOFT AND HARD MAGNETIC MATERIALS 719 8.6.1 DEFINITIONS 719 8.6.2 INITIAL
AND MAXIMUM PERMEABILITY 720 8.7 SOFT MAGNETIC MATERIALS: EXAMPLES AND
USES 721 8.8 HARD MAGNETIC MATERIALS: EXAMPLES AND USES 724 8.9
SUPERCONDUCTIVITY 729 8.9.1 ZERO RESISTANCE AND THE MEISSNER EFFECT 729
8.9.2 TYPE I AND TYPE II SUPERCONDUCTORS 733 8.9.3 CRITICAL CURRENT
DENSITY 736 8.10 SUPERCONDUCTIVITY ORIGIN 739 ADDITIONAL TOPICS 740 8.11
ENERGY BAND DIAGRAMS AND MAGNETISM 740 8.11.1 PAULI SPIN PARAMAGNETISM
740 8.11.2 ENERGY BAND MODEL OF FERROMAGNETISM 742 8.12 ANISOTROPIE AND
GIANT MAGNETORESISTANCE 744 8.13 MAGNETIC RECORDING MATERIALS 749 8.14
JOSEPHSON EFFECT 756 8.15 FLUX QUANTIZATION 758 CD SELECTED TOPICS AND
SOLVED PROBLEMS 759 DEFINING TERMS 759 QUESTIONS AND PROBLEMS 763
CHAPTER 9 OPTICAL PROPERTIES OF MATERIALS 773 9.1 LIGHT WAVES IN A
HOMOGENEOUS MEDIUM 774 9.2 REFRACTIVE INDEX 777 9.3 DISPERSION:
REFRACTIVE INDEX-WAVELENGTH BEHAVIOR 779 9.4 GROUP VELOCITY AND GROUP
INDEX 784 9.5 MAGNETIC FIELD: IRRADIANCE AND POYNTING VECTOR 787 9.6
SNELL S LAW AND TOTAL INTERNAL REFLECTION (TIR) 789 9.7 FRESNEL S
EQUATIONS 793 9.7.1 AMPLITUDE REFLECTION AND TRANSMISSION COEFFICIENTS
793 X CONTENTS 9.7.2 INTENSITY, REFLECTANCE, AND TRANSMITTANCE 799 9.8
COMPLEX REFRACTIVE INDEX AND LIGHT ABSORPTION 804 9.9 LATTICE ABSORPTION
811 9.10 BAND-TO-BAND ABSORPTION 813 9.11 LIGHT SCATTERING IN MATERIALS
816 9.12 ATTENUATION IN OPTICAL FIBERS 817 9.13 LUMINESCENCE, PHOSPHORS,
AND WHITE LEDS 820 9.14 POLARIZATION 825 9.15 OPTICAL ANISOTROPY 827
9.15.1 UNIAXIAL CRYSTALS AND FRESNEL S OPTICAL INDICATRIX 829 9.15.2
BIREFRINGENCE OF CALCITE 832 9.15.3 DICHROISM 833 9.16 BIREFRINGENT
RETARDING PLATES 833 9.17 OPTICAL ACTIVITY AND CIRCULAR BIREFRINGENCE
835 ADDITIONAL TOPICS 837 9.18 ELECTRO-OPTIC EFFECTS 837 CD SELECTED
TOPICS AND SOLVED PROBLEMS DEFINING TERMS 841 QUESTIONS AND PROBLEMS 844
APPENDIX A BRAGG S DIFFRACTION LAW AND X-RAY DIFFRACTION 848 APPENDIX B
FLUX, LUMINOUS FLUX, AND THE BRIGHTNESS OF RADIATION 853 APPENDIX C
MAJOR SYMBOLS AND ABBREVIATIONS 855 APPENDIX D ELEMENTS TO URANIUM 861
APPENDIX E CONSTANTS AND USEFUL INFORMATION 864 INDEX 866 841 GAAS
INGOTS AND WAFERS. I SOURCE: COURTESY OF SUMITOMO ELECTRIC INDUSTRIES,
LTD.
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| adam_txt |
PRINCIPLES OF ELECTRONIC MATERIALS AND DEVICES THIRD EDITION S. O. KASAP
UNIVERSITY OF SASKATCHEWAN CANADA MC GRAW HILL HIGHER EDUCATION BOSTON
BURR RIDGE, IL DUBUQUE, IA MADISON, WL NEW YORK SAN FRANCISCO ST. LOUIS
BANGKOK BOGOTA CARACAS KUALA LUMPUR LISBON LONDON MADRID MEXICO CITY
MILAN MONTREAL NEW DELHI SANTIAGO SEOUL SINGAPORE SYDNEY TAIPEI TORONTO
CONTENTS PREFACE XI CHAPTER 1 ELEMENTARY MATERIALS SCIENCE CONCEPTS 3
1.1 ATOMIC STRUCTURE AND ATOMIC NUMBER 3 1.2 ATOMIC MASS AND MOLE 8 1.3
BONDING AND TYPES OF SOLIDS 9 1.3.1 MOLECULES AND GENERAL BONDING
PRINCIPLES 9 1.3.2 COVALENTLY BONDED SOLIDS: DIAMOND 11 1.3.3 METALLIC
BONDING: COPPER 13 1.3.4 IONICALLY BONDED SOLIDS: SALT 14 1.3.5
SECONDARY BONDING 18 1.3.6 MIXED BONDING 22 1.4 KINETIC MOLECULAR THEORY
25 1.4.1 MEAN KINETIC ENERGY AND TEMPERATURE 25 1.4.2 THERMAL EXPANSION
31 1.5 MOLECULAR VELOCITY AND ENERGY DISTRIBUTION 36 1.6 HEAT, THERMAL
FLUCTUATIONS, AND NOISE 40 1.7 THERMALLY ACTIVATED PROCESSES 45 1.7.1
ARRHENIUS RATE EQUATION 45 1.7.2 ATOMIC DIFFUSION AND THE DIFFUSION
COEFFICIENT 47 1.8 THE CRYSTALLINE STATE 49 1.8.1 TYPES OF CRYSTALS 49
1.8.2 CRYSTAL DIRECTIONS AND PLANES 56 1.8.3 ALLOTROPY AND CARBON 61 1.9
CRYSTALLINE DEFECTS AND THEIR SIGNIFICANCE 64 1.9.1 POINT DEFECTS:
VACANCIES AND IMPURITIES 64 1.9.2 LINE DEFECTS: EDGE AND SCREW
DISLOCATIONS 68 1.9.3 PLANAR DEFECTS: GRAIN BOUNDARIES 70 1.9.4 CRYSTAL
SURFACES AND SURFACE PROPERTIES 73 1.9.5 STOICHIOMETRY,
NONSTOICHIOMETRY, AND DEFECT STRUCTURES 75 1.10 SINGLE-CRYSTAL
CZOCHRALSKI GROWTH 76 1.11 GLASSES AND AMORPHOUS SEMICONDUCTORS 78
1.11.1 GLASSES AND AMORPHOUS SOLIDS 78 1.11.2 CRYSTALLINE AND AMORPHOUS
SILICON 80 1.12 SOLID SOLUTIONS AND TWO-PHASE SOLIDS 83 1.12.1
ISOMORPHOUS SOLID SOLUTIONS: ISOMORPHOUS ALLOYS 83 1.12.2 PHASE
DIAGRAMS: CU-NI AND OTHER ISOMORPHOUS ALLOYS 84 1.12.3 ZONE REFINING AND
PURE SILICON CRYSTALS 88 1.12.4 BINARY EUTECTIC PHASE DIAGRAMS AND PB-SN
SOLDERS 90 ADDITIONAL TOPICS 95 1.13 BRAVAIS LATTICES 95 CD SELECTED
TOPICS AND SOLVED PROBLEMS 98 DEFINING TERMS 98 QUESTIONS AND PROBLEMS
102 CHAPTER 2 ELECTRICAL AND THERMAL CONDUCTION IN SOLIDS 113 2.1
CLASSICAL THEORY: THE DRUDE MODEL 114 2.1.1 METALS AND CONDUCTION BY
ELECTRONS 114 2.2 TEMPERATURE DEPENDENCE OF RESISTIVITY: IDEAL PURE
METALS 122 2.3 MATTHIESSEN'S AND NORDHEIM'S RULES 125 2.3.1
MATTHIESSEN'S RULE AND THE TEMPERATURE COEFFICIENT OF RESISTIVITY (A)
125 VI CONTENTS 2.3.2 SOLID SOLUTIONS AND NORDHEIM'S RULE 134 2.4
RESISTIVITY OF MIXTURES AND POROUS MATERIALS 139 2.4.1 HETEROGENEOUS
MIXTURES 139 2.4.2 TWO-PHASE ALLOY (AG-NI) RESISTIVITY AND ELECTRICAL
CONTACTS 143 2.5 THE HALL EFFECT AND HALL DEVICES 145 2.6 THERMAL
CONDUCTION 149 2.6.1 THERMAL CONDUCTIVITY 149 2.6.2 THERMAL RESISTANCE
153 2.7 ELECTRICAL CONDUCTIVITY OF NONMETALS 154 2.7.1 SEMICONDUCTORS
155 2.7.2 IONIC CRYSTALS AND GLASSES 159 ADDITIONAL TOPICS 163 2.8 SKIN
EFFECT: HF RESISTANCE OF A CONDUCTOR 163 2.9 THIN METAL FILMS 166 2.9.1
CONDUCTION IN THIN METAL FILMS 166 2.9.2 RESISTIVITY OF THIN FILMS 167
2.10 INTERCONNECTS IN MICROELECTRONICS 172 2.11 ELECTROMIGRATION AND
BLACK'S EQUATION 176 CD SELECTED TOPICS AND SOLVED PROBLEMS 178 DEFINING
TERMS 178 QUESTIONS AND PROBLEMS 180 CHAPTER 3 ELEMENTARY QUANTUM
PHYSICS 191 3.1 PHOTONS 191 3.1.1 LIGHT ASAWAVE 191 3.1.2 THE
PHOTOELECTRIC EFFECT 194 3.1.3 COMPTON SCATTERING 199 3.1.4 BLACK BODY
RADIATION 202 3.2 THE ELECTRON AS A WAVE 205 3.2.1 DE BROGLIE
RELATIONSHIP 205 3.2.2 TIME-INDEPENDENT SCHROEDINGER EQUATION 208 3.3
INFINITE POTENTIAL WELL: A CONFINED ELECTRON 212 3.4 HEISENBERG'S
UNCERTAINTY PRINCIPLE 217 3.5 TUNNELING PHENOMENON: QUANTUM LEAK 221 3.6
POTENTIAL BOX: THREE QUANTUM NUMBERS 228 3.7 HYDROGENIC ATOM 231 3.7.1
ELECTRON WAVEFUNCTIONS 231 3.7.2 QUANTIZED ELECTRON ENERGY 236 3.7.3
ORBITAL ANGULAR MOMENTAN AND SPACE QUANTIZATION 241 3.7.4 ELECTRON SPIN
AND INTRINSIC ANGULAR MOMENTUM S 245 3.7.5 MAGNETIC DIPOLE MOMENT OF THE
ELECTRON 248 3.7.6 TOTAL ANGULAR MOMENTUM J 252 3.8 THE HELIUM ATOM AND
THE PERIODIC TABLE 254 3.8.1 HE ATOM AND PAULI EXCLUSION PRINCIPLE 254
3.8.2 HUND'S RULE 256 3.9 STIMULATED EMISSION AND LASERS 258 3.9.1
STIMULATED EMISSION AND PHOTON AMPLIFICATION 258 3.9.2 HELIUM-NEON LASER
261 3.9.3 LASER OUTPUT SPECTRUM 265 ADDITIONAL TOPICS 267 3.10 OPTICAL
FIBER AMPLIFIERS 267 CD SELECTED TOPICS AND SOLVED PROBLEMS 268 DEFINING
TERMS 269 QUESTIONS AND PROBLEMS 272 CHAPTER 4 MODERN THEORY OF SOLIDS
285 4.1 HYDROGEN MOLECULE: MOLECULAR ORBITAL THEORY OF BONDING 285 4.2
BAND THEORY OF SOLIDS 291 4.2.1 ENERGY B AND FORM ATION 291 4.2.2
PROPERTIES OF ELECTRONS IN A BAND 296 4.3 SEMICONDUCTORS 299 4.4
ELECTRON EFFECTIVE MASS 303 4.5 DENSITY OF STATES IN AN ENERGY BAND 305
4.6 STATISTICS: COLLECTIONS OF PARTICLES 312 4.6.1 BOLTZMANN CLASSICAL
STATISTICS 312 4.6.2 FERMI-DIRAC STATISTICS 313 4.7 QUANTUM THEORY OF
METALS 315 4.7.1 FREE ELECTRON MODEL 315 4.7.2 CONDUCTION IN METALS 318
CONTENTS VII 4.8 FERMI ENERGY SIGNIFICANCE 320 4.8.1 METAL-METAL
CONTACTS: CONTACT POTENTIAL 320 4.8.2 THE SEEBECK EFFECT AND THE
THERMOCOUPLE 322 4.9 THERMIONIC EMISSION AND VACUUM TUBE DEVICES 328
4.9.1 THERMIONIC EMISSION: RICHARDSON- DUSHMAN EQUATION 328 4.9.2
SCHOTTKY EFFECT AND FIELD EMISSION 332 4.10 PHONONS 337 4.10.1 HARMONIE
OSCILLATOR AND LATTICE WAVES 337 4.10.2 DEBYE HEAT CAPACITY 342 4.10.3
THERMAL CONDUCTIVITY OF NONMETALS 348 4.10.4 ELECTRICAL CONDUCTIVITY 350
ADDITIONAL TOPICS 352 4.11 BAND THEORY OF METALS: ELECTRON DIFFRACTION
IN CRYSTALS 352 4.12 GRUENEISEN'S MODEL OF THERMAL EXPANSION 361 CD
SELECTED TOPICS AND SOLVED PROBLEMS 363 DEFINING TERMS 363 QUESTIONS AND
PROBLEMS 365 CHAPTER 5 SEMICONDUCTORS 373 5.1 INTRINSIC SEMICONDUCTORS
374 5.1.1 SILICON CRYSTAL AND ENERGY BAND DIAGRAM 374 5.1.2 ELECTRONS
AND HOLES 376 5.1.3 CONDUCTION IN SEMICONDUCTORS 378 5.1.4 ELECTRON AND
HOLE CONCENTRATIONS 380 5.2 EXTRINSIC SEMICONDUCTORS 388 5.2.1 N-TYPE
DOPING 388 5.2.2 -TYPE DOPING 390 5.2.3 COMPENSATION DOPING 392 5.3
TEMPERATURE DEPENDENCE OF CONDUCTIVITY 396 5.3.1 CARRIER CONCENTRATION
TEMPERATURE DEPENDENCE 396 5.3.2 DRIFT MOBILITY: TEMPERATURE AND
IMPURITY DEPENDENCE 401 5.3.3 CONDUCTIVITY TEMPERATURE DEPENDENCE 404
5.3.4 DEGENERATE AND NONDEGENERATE SEMICONDUCTORS 406 5.4 RECOMBINATION
AND MINORITY CARRIER INJECTION 407 5.4.1 DIRECT AND INDIRECT
RECOMBINATION 407 5.4.2 MINORITY CARRIER LIFETIME 410 5.5 DIFFUSION AND
CONDUCTION EQUATIONS, AND RANDOM MOTION 416 5.6 CONTINUITY EQUATION 422
5.6.1 TIME-DEPENDENT CONTINUITY EQUATION 422 5.6.2 STEADY-STATE
CONTINUITY EQUATION 424 5.7 OPTICAL ABSORPTION 427 5.8 PIEZORESISTIVITY
431 5.9 SCHOTTKY JUNCTION 435 5.9.1 SCHOTTKY DIODE 435 5.9.2 SCHOTTKY
JUNCTION SOLAR CELL 440 5.10 OHMIC CONTACTS AND THERMOELECTRIC COOLERS
443 ADDITIONAL TOPICS 448 5.11 DIRECT AND INDIRECT BANDGAP
SEMICONDUCTORS 448 5.12 INDIRECT RECOMBINATION 457 5.13 AMORPHOUS
SEMICONDUCTORS 458 CD SELECTED TOPICS AND SOLVED PROBLEMS 461 DEFINING
TERMS 461 QUESTIONS AND PROBLEMS 464 CHAPTER 6 SEMICONDUCTOR DEVICES 475
6.1 IDEAL PN JUNCTION 476 6.1.1 NO APPLIED BIAS: OPEN CIRCUIT 476 6.1.2
FORWARD BIAS: DIFFUSION CURRENT 481 6.1.3 FORWARD BIAS: RECOMBINATION
AND TOTAL CURRENT 487 6.1.4 REVERSE BIAS 489 6.2 PN JUNCTION BAND
DIAGRAM 494 6.2.1 OPEN CIRCUIT 494 6.2.2 FORWARD AND REVERSE BIAS 495
VIII CONTENTS 6.3 DEPLETION LAYER CAPACITANCE OF THE PN JUNCTION 498 6.4
DIFFUSION (STORAGE) CAPACITANCE AND DYNAMIC RESISTANCE 500 6.5 REVERSE
BREAKDOWN: AVALANCHE AND ZENER BREAKDOWN 502 6.5.1 AVALANCHE BREAKDOWN
503 6.5.2 ZENER BREAKDOWN 504 6.6 BIPOLAR TRANSISTOR (BJT) 506 6.6.1
COMMON BASE (CB) DE CHARACTERISTICS 506 6.6.2 COMMON BASE AMPLIFIER 515
6.6.3 COMMON EMITTER (CE) DE CHARACTERISTICS 517 6.6.4 LOW-FREQUENCY
SMALL-SIGNAL MODEL 518 6.7 JUNCTION FIELD EFFECT TRANSISTOR (JFET) 522
6.7.1 GENERAL PRINCIPLES 522 6.7.2 JFET AMPLIFIER 528 6.8
METAL-OXIDE-SEMICONDUCTOR FIELD EFFECT TRANSISTOR (MOSFET) 532 6.8.1
FIELD EFFECT AND INVERSION 532 6.8.2 ENHANCEMENT MOSFET 535 6.8.3
THRESHOLD VOLTAGE 539 6.8.4 ION IMPLANTED MOS TRANSISTORS AND POLY-SI
GATES 541 6.9 LIGHT EMITTING DIODES (LED) 543 6.9.1 LED PRINCIPLES 543
6.9.2 HETEROJUNCTION HIGH-INTENSITY LEDS 547 6.9.3 LED CHARACTERISTICS
548 6.10 SOLAR CELLS 551 6.10.1 PHOTOVOLTAIC DEVICE PRINCIPLES 551
6.10.2 SERIES AND SHUNT RESISTANCE 559 6.10.3 SOLAR CELL MATERIALS,
DEVICES, AND EFFICIENCIES 561 ADDITIONAL TOPICS 564 6.11 PIN DIODES,
PHOTODIODES, AND SOLAR CELLS 564 6.12 SEMICONDUCTOR OPTICAL AMPLIFIERS
AND LASERS 566 CD SELECTED TOPICS AND SOLVED PROBLEMS 570 DEFINING TERMS
570 QUESTIONS AND PROBLEMS 573 CHAPTER 7 DIELECTRIC MATERIALS AND
INSULATION 583 7.1 MATTER POLARIZATION AND RELATIVE PERMITTIVITY 584
7.1.1 RELATIVE PERMITTIVITY: DEFINITION 584 7.1.2 DIPOLE MOMENT AND
ELECTRONIC POLARIZATION 585 7.1.3 POLARIZATION VECTOR P 589 7.1.4 LOCAL
FIELD I OC AND CLAUSIUS-MOSSOTTI EQUATION 593 7.2 ELECTRONIC
POLARIZATION: COVALENT SOLIDS 595 7.3 POLARIZATION MECHANISMS 597 7.3.1
IONIC POLARIZATION 597 7.3.2 ORIENTATIONAL (DIPOLAR) POLARIZATION 598
7.3.3 INTERFACIAL POLARIZATION 600 7.3.4 TOTAL POLARIZATION 601 7.4
FREQUENCY DEPENDENCE: DIELECTRIC CONSTANT AND DIELECTRIC LOSS 603 7.4.1
DIELECTRIC LOSS 603 7.4.2 DEBYE EQUATIONS, COLE-COLE PLOTS, AND
EQUIVALENT SERIES CIRCUIT 611 7.5 GAUSS'S LAW AND BOUNDARY CONDITIONS
614 7.6 DIELECTRIC STRENGTH AND INSULATION BREAKDOWN 620 7.6.1
DIELECTRIC STRENGTH: DEFINITION 620 7.6.2 DIELECTRIC BREAKDOWN AND
PARTIAL DISCHARGES: GASES 621 7.6.3 DIELECTRIC BREAKDOWN: LIQUIDS 622
7.6.4 DIELECTRIC BREAKDOWN: SOLIDS 623 7.7 CAPACITOR DIELECTRIC
MATERIALS 631 7.7.1 TYPICAL CAPACITOR CONSTRUCTIONS 631 7.7.2
DIELECTRICS: COMPARISON 634 7.8 PIEZOELECTRICITY, FERROELECTRICITY, AND
PYROELECTRICITY 638 7.8.1 PIEZOELECTRICITY 638 7.8.2 PIEZOELECTRICITY:
QUARTZ OSCILLATORS AND FILTERS 644 7.8.3 FERROELECTRIC AND PYROELECTRIC
CRYSTALS 647 CONTENTS IX ADDITIONAL TOPICS 654 7.9 ELECTRIC DISPLACEMENT
AND DEPOLARIZATION FIELD 654 7.10 LOCAL FIELD AND THE LORENTZ EQUATION
658 7.11 DIPOLAR POLARIZATION 660 7.12 IONIC POLARIZATION AND DIELECTRIC
RESONANCE 662 7.13 DIELECTRIC MIXTURES AND HETEROGENEOUS MEDIA 667 CD
SELECTED TOPICS AND SOLVED PROBLEMS 669 DEFINING TERMS 670 QUESTIONS AND
PROBLEMS 673 CHAPTER 8 MAGNETIC PROPERTIES AND SUPERCONDUCTIVITY 685 8.1
MAGNETIZATION OF MATTER 685 8.1.1 MAGNETIC DIPOLE MOMENT 685 8.1.2
ATOMIC MAGNETIC MOMENTS 687 8.1.3 MAGNETIZATION VECTOR M 688 8.1.4
MAGNETIZING FIELD OR MAGNETIC FIELD INTENSITY H 691 8.1.5 MAGNETIC
PERMEABILITY AND MAGNETIC SUSCEPTIBILITY 692 8.2 MAGNETIC MATERIAL
CLASSIFICATIONS 696 8.2.1 DIAMAGNETISM 696 8.2.2 PARAMAGNETISM 698 8.2.3
FERROMAGNETISM 699 8.2.4 ANTIFERROMAGNETISM 699 8.2.5 FERRIMAGNETISM 700
8.3 FERROMAGNETISM ORIGIN AND THE EXCHANGE INTERACTION 700 8.4
SATURATION MAGNETIZATION AND CURIE TEMPERATURE 703 8.5 MAGNETIC DOMAINS:
FERROMAGNETIC MATERIALS 705 8.5.1 MAGNETIC DOMAINS 705 8.5.2
MAGNETOCRYSTALLINE ANISOTROPY 706 8.5.3 DOMAIN WALLS 708 8.5.4
MAGNETOSTRICTION 711 8.5.5 DOMAIN WALL MOTION 712 8.5.6 POLYCRYSTALLINE
MATERIALS AND THE M VERSUS H BEHAVIOR 713 8.5.7 DEMAGNETIZATION 717 8.6
SOFT AND HARD MAGNETIC MATERIALS 719 8.6.1 DEFINITIONS 719 8.6.2 INITIAL
AND MAXIMUM PERMEABILITY 720 8.7 SOFT MAGNETIC MATERIALS: EXAMPLES AND
USES 721 8.8 HARD MAGNETIC MATERIALS: EXAMPLES AND USES 724 8.9
SUPERCONDUCTIVITY 729 8.9.1 ZERO RESISTANCE AND THE MEISSNER EFFECT 729
8.9.2 TYPE I AND TYPE II SUPERCONDUCTORS 733 8.9.3 CRITICAL CURRENT
DENSITY 736 8.10 SUPERCONDUCTIVITY ORIGIN 739 ADDITIONAL TOPICS 740 8.11
ENERGY BAND DIAGRAMS AND MAGNETISM 740 8.11.1 PAULI SPIN PARAMAGNETISM
740 8.11.2 ENERGY BAND MODEL OF FERROMAGNETISM 742 8.12 ANISOTROPIE AND
GIANT MAGNETORESISTANCE 744 8.13 MAGNETIC RECORDING MATERIALS 749 8.14
JOSEPHSON EFFECT 756 8.15 FLUX QUANTIZATION 758 CD SELECTED TOPICS AND
SOLVED PROBLEMS 759 DEFINING TERMS 759 QUESTIONS AND PROBLEMS 763
CHAPTER 9 OPTICAL PROPERTIES OF MATERIALS 773 9.1 LIGHT WAVES IN A
HOMOGENEOUS MEDIUM 774 9.2 REFRACTIVE INDEX 777 9.3 DISPERSION:
REFRACTIVE INDEX-WAVELENGTH BEHAVIOR 779 9.4 GROUP VELOCITY AND GROUP
INDEX 784 9.5 MAGNETIC FIELD: IRRADIANCE AND POYNTING VECTOR 787 9.6
SNELL'S LAW AND TOTAL INTERNAL REFLECTION (TIR) 789 9.7 FRESNEL'S
EQUATIONS 793 9.7.1 AMPLITUDE REFLECTION AND TRANSMISSION COEFFICIENTS
793 X CONTENTS 9.7.2 INTENSITY, REFLECTANCE, AND TRANSMITTANCE 799 9.8
COMPLEX REFRACTIVE INDEX AND LIGHT ABSORPTION 804 9.9 LATTICE ABSORPTION
811 9.10 BAND-TO-BAND ABSORPTION 813 9.11 LIGHT SCATTERING IN MATERIALS
816 9.12 ATTENUATION IN OPTICAL FIBERS 817 9.13 LUMINESCENCE, PHOSPHORS,
AND WHITE LEDS 820 9.14 POLARIZATION 825 9.15 OPTICAL ANISOTROPY 827
9.15.1 UNIAXIAL CRYSTALS AND FRESNEL'S OPTICAL INDICATRIX 829 9.15.2
BIREFRINGENCE OF CALCITE 832 9.15.3 DICHROISM 833 9.16 BIREFRINGENT
RETARDING PLATES 833 9.17 OPTICAL ACTIVITY AND CIRCULAR BIREFRINGENCE
835 ADDITIONAL TOPICS 837 9.18 ELECTRO-OPTIC EFFECTS 837 CD SELECTED
TOPICS AND SOLVED PROBLEMS DEFINING TERMS 841 QUESTIONS AND PROBLEMS 844
APPENDIX A BRAGG'S DIFFRACTION LAW AND X-RAY DIFFRACTION 848 APPENDIX B
FLUX, LUMINOUS FLUX, AND THE BRIGHTNESS OF RADIATION 853 APPENDIX C
MAJOR SYMBOLS AND ABBREVIATIONS 855 APPENDIX D ELEMENTS TO URANIUM 861
APPENDIX E CONSTANTS AND USEFUL INFORMATION 864 INDEX 866 841 GAAS
INGOTS AND WAFERS. I SOURCE: COURTESY OF SUMITOMO ELECTRIC INDUSTRIES,
LTD. |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Kasap, Safa O. 1953- |
| author_GND | (DE-588)133826910 |
| author_facet | Kasap, Safa O. 1953- |
| author_role | aut |
| author_sort | Kasap, Safa O. 1953- |
| author_variant | s o k so sok |
| building | Verbundindex |
| bvnumber | BV021294573 |
| classification_rvk | UP 1000 UQ 8000 |
| ctrlnum | (OCoLC)492855276 (DE-599)BVBBV021294573 |
| dewey-full | 621.3 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621.3 |
| dewey-search | 621.3 |
| dewey-sort | 3621.3 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | 3. ed. |
| format | Book |
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| id | DE-604.BV021294573 |
| illustrated | Illustrated |
| index_date | 2024-07-02T13:50:49Z |
| indexdate | 2024-07-09T20:34:57Z |
| institution | BVB |
| isbn | 0072957913 0070607966 0071244581 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014615363 |
| oclc_num | 492855276 |
| open_access_boolean | |
| owner | DE-384 |
| owner_facet | DE-384 |
| physical | XIII, 874 S. Ill., graph. Darst. CD-ROM (12 cm) |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | Tata McGraw-Hill |
| record_format | marc |
| spelling | Kasap, Safa O. 1953- Verfasser (DE-588)133826910 aut Principles of electronic materials and devices S. O. Kasap 3. ed. New Delhi [u.a.] Tata McGraw-Hill 2006 XIII, 874 S. Ill., graph. Darst. CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier Appareils électriques ram Circuits électriques ram Dispositifs électromécaniques ram Semiconducteurs ram Électricité - Applications industrielles ram Électrotechnique ram Werkstoffkunde (DE-588)4079184-1 gnd rswk-swf Festkörperphysik (DE-588)4016921-2 gnd rswk-swf Elektrotechnik (DE-588)4014390-9 gnd rswk-swf Festkörperphysik (DE-588)4016921-2 s DE-604 Elektrotechnik (DE-588)4014390-9 s Werkstoffkunde (DE-588)4079184-1 s GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014615363&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kasap, Safa O. 1953- Principles of electronic materials and devices Appareils électriques ram Circuits électriques ram Dispositifs électromécaniques ram Semiconducteurs ram Électricité - Applications industrielles ram Électrotechnique ram Werkstoffkunde (DE-588)4079184-1 gnd Festkörperphysik (DE-588)4016921-2 gnd Elektrotechnik (DE-588)4014390-9 gnd |
| subject_GND | (DE-588)4079184-1 (DE-588)4016921-2 (DE-588)4014390-9 |
| title | Principles of electronic materials and devices |
| title_auth | Principles of electronic materials and devices |
| title_exact_search | Principles of electronic materials and devices |
| title_exact_search_txtP | Principles of electronic materials and devices |
| title_full | Principles of electronic materials and devices S. O. Kasap |
| title_fullStr | Principles of electronic materials and devices S. O. Kasap |
| title_full_unstemmed | Principles of electronic materials and devices S. O. Kasap |
| title_short | Principles of electronic materials and devices |
| title_sort | principles of electronic materials and devices |
| topic | Appareils électriques ram Circuits électriques ram Dispositifs électromécaniques ram Semiconducteurs ram Électricité - Applications industrielles ram Électrotechnique ram Werkstoffkunde (DE-588)4079184-1 gnd Festkörperphysik (DE-588)4016921-2 gnd Elektrotechnik (DE-588)4014390-9 gnd |
| topic_facet | Appareils électriques Circuits électriques Dispositifs électromécaniques Semiconducteurs Électricité - Applications industrielles Électrotechnique Werkstoffkunde Festkörperphysik Elektrotechnik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014615363&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kasapsafao principlesofelectronicmaterialsanddevices |