دسترسی نامحدود
برای کاربرانی که ثبت نام کرده اند
برای ارتباط با ما می توانید از طریق شماره موبایل زیر از طریق تماس و پیامک با ما در ارتباط باشید
در صورت عدم پاسخ گویی از طریق پیامک با پشتیبان در ارتباط باشید
برای کاربرانی که ثبت نام کرده اند
درصورت عدم همخوانی توضیحات با کتاب
از ساعت 7 صبح تا 10 شب
ویرایش: 11. print نویسندگان: Azároff. Leonid V., Brophy. James J سری: ISBN (شابک) : 9780070026698, 0070026696 ناشر: McGraw-Hill سال نشر: 1978 تعداد صفحات: 477 زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 81 مگابایت
کلمات کلیدی مربوط به کتاب فرآیندهای الکترونیکی در مواد: فیزیک حالت جامد، فیزیک نیمه هادی.
در صورت تبدیل فایل کتاب Electronic processes in materials به فرمت های PDF، EPUB، AZW3، MOBI و یا DJVU می توانید به پشتیبان اطلاع دهید تا فایل مورد نظر را تبدیل نمایند.
توجه داشته باشید کتاب فرآیندهای الکترونیکی در مواد نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
Chapter 1. STRUCTURE OF CRYSTALS 1 INTRODUCTION TO CRYSTALLOGRAPHY 1 Periodicity in crystals. Representation of planes. Symmetry elements. Symmetry groups. Classification of crystals. Equivalent positions in a unit cell. THE CLOSEST PACKINGS OF SPHERES 17 Hexagonal and cubic closest packings. Body-centered cubic packing. Voids in closest packings. Voids in body-centered cubic packing. ATOMIC PACKINGS IN CRYSTALS 25 Effect of atomic size. Common crystal-structure types. Variations in atomic packings. Chapter 2. DIFFRACTION OF X-RAYS 35 ELEMENTARY DIFFRACTION THEORY 36 Bragg law. Diffraction intensities. Determination of unit-cell contents. Determination of atomic arrays. Reciprocal-lattice concept. THE POWDER METHOD 47 Experimental arrangement. Determination of unit-cell dimensions. Identi fication of unknown crystals. SINGLE-CRYSTAL METHODS 52 Rotating-crystal method. Moving-film methods. The Laue method. PREFERRED ORIENTATION STUDIES 66 Wire texture. Sheet texture. Organic texture. Chapter 3. QUANTUM MECHANICS 61 ELEMENTS OF THEORY 81 Bohr atom. Introduction to wave mechanics. Schrddinger theory. Uncer tainty principle. Quantum numbers. Pauli exclusion principle. APPLICATIONS OF QUANTUM MECHANICS 76 Hydrogen atom. X-ray spectra. Periodic table. Chapter 4. ATOMIC BONDING 94 BOND TYPES 95 Forces between atoms. Ionic bond. Covalent bond. Metallic bond. Van der Waals bond. COHESION IN CRYSTALS . 106 Quantum-mechanical approach. Covalent crystals. Ionic crystals. Metal lic crystals. Chapters. STATISTICAL MECHANICS 123 ELEMENTS OF THEORY 124 Maxwell-Boltzmann distribution. Fermi-Dirac statistics. APPLICATIONS OF STATISTICAL MECHANICS 133 Kinetic energy of a free particle. Specific-heat theories. Imperfections in crystals. Chapter 6. FREE-ELECTRON THEORY 146 EARLY THEORIES 146 Drude-Lorentz theory. Applications of classical theory. SOMMERFELD THEORY 148 Quantum mechanics. Momentum space. Fermi-Dirac distribution. APPLICATIONS OF THE FREE-ELECTRON THEORY .... 156 Electrical conductivity in metals. Electrical conductivity in alloys. Ther mal conductivity. Electronic specific heat. Chapter?. ZONE THEORY 166 ELEMENTS OF THEORY 166 Kronig-Penney model. Allowed-energy zones. Brillouin zones, k space. Fermi surfaces. Density of states. APPLICATIONS OF ZONE THEORY 179 Energy levels in atoms and solids. Conductors and nonconductors. Crystal structure. Transition metals and alloys. Superconductivity. Chapter 8. THEORY OF SEMICONDUCTORS .... 194 BAND MODEL OF SEMICONDUCTORS 195 Energy bands. Effective density of states. Intrinsic semiconductors. Con duction by electrons and holes. EXTRINSIC SEMICONDUCTORS 203 Impurity levels. Position of Fermi level. Carrier concentration. Hall effect. MOBILITY OF CURRENT CARRIERS 213 Drift velocity. Scattering by phonons. Impurity scattering. Diffusion constant. MINORITY-CARRIER LIFETIME 219 Recombination processes. Diffusion length. Carrier fluctuations. SURFACES 223 Surface states. Space-charge layers. Slow and fast states. CONTACTS 227 Rectifying contacts. Ohmic contacts. The rectifier equation. Injection. THERMOELECTRICITY 233 Peltier effect. Seebeck effect. Intrinsic thermoelectric power. Chapter 9. SEMICONDUCTING MATERIALS .... 238 ELEMENTAL SEMICONDUCTORS 239 Group IV materials. Chemical doping. Silicon carbide. Graphite, Se, and Te. INTERMETALLIC III-V COMPOUNDS 247 General properties. Gallium arsenide. Indium antimonide. Isomorphous systems. COMPOUND SEMICONDUCTORS 252 Cadmium sulfide, selenide, and telluride. Lead sulfide, selenide, and telluride. Other compounds. OXIDES 257 Simple oxides: ZnO and MgO. Transition-metal oxides. ORGANIC SEMICONDUCTORS 261 Molecular crystals. Polymers. CRYSTAL PREPARATION 263 Growth from the melt. Zone melting. Chapter 10. SEMICONDUCTOR DEVICES 268 THEORY OF p-n JUNCTIONS 269 Structure of p-n junction. The rectifier equation. Minority-carrier injection. Junction capacitance. p-n JUNCTION DEVICES 277 Rectifiers. Photocells. Solar batteries. Tunnel diodes. TRANSISTORS 285 Theory of junction transistors. Transistor characteristics. Grounded emitter amplifier. Transistor types. HOMOGENEOUS DEVICES 294 Photoconductors. Thermoelectric cooling. Hall-effect devices. Ther mistors. MISCELLANEOUS DEVICES 300 Modular electronics. Space-charge-limited devices. Chapter 11. ELECTRON EMISSION 305 EFFECTS AT METAL SURFACES 306 Work function. Surface-potential barrier. Contact potential. THERMIONIC EMISSION 311 Richardson- Dush man equation. Thermionic-emission constants. Sehottky effect. Thermionic emission from semiconductors. FIELD EMISSION 318 Fowler-Nordheim equation. Field-electron microscope. Field-ion micro scope. Tunneling in insulators. SECONDARY EMISSION 326 Secondary yield. Universal yield curve. Secondary-electron energies. Secondary multipliers. PHOTOELECTRIC EMISSION 331 Einstein photoelectric equation. Fowler theory. Fowler plots. Emission from insulators. Chapter 12. DIELECTRIC PROCESSES 338 FUNDAMENTAL CONCEPTS 339 Electrostatic relations. Polarization density. Atomic polarizability. DIELECTRIC CONSTANT 345 Static dielectric constant. Temperature dependence. Frequency depend ence. ELECTRICAL PROCESSES 351 Piezoelectricity. Ferroelectricity. Ionic conductivity. Electric break down. Chapter 13. MAGNETIC PROCESSES 372 ATOMIC CONSIDERATIONS 374 Zeeman effect. Magnetic gyroscopes. MAGNETIC SUSCEPTIBILITY 378 Diamagnetism. Paramagnetism. FERROMAGNETISM 384 Exchange interactions. Domain structure. Ferromagnetic materials. OTHER TYPES OF MAGNETISM 395 Exchange interactions. Antiferromagnetism. Ferrimagnetism and ferrites. MAGNETIC RESONANCE 402 Paramagnetic resonance. Ferromagnetic resonance. Cyclotron resonance. Chapter 14. OPTICAL PROCESSES 408 ABSORPTION OF LIGHT 410 Metals. Semiconductors. Insulators. COLOR CENTERS 418 F centers. Other kinds of centers. Photographic process. EMISSION OF LIGHT 423 Luminescence. Phosphors. Stimulated emission. TRANSMISSION OF LIGHT . . 432 Refraction. Birefringence Appendix 1. PHYSICAL CONSTANTS 442 Appendix 2. SYSTEMS OF UNITS 444 Appendix 3. ATOMIC RADII 446 Appendix 4. PERIODIC CHART OF THE ELEMENTS . . 451