Verfügbarkeit: Modern physics

Modern physics: for scientists and engineers

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1. Verfasser:	Morrison, John C. 1940- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 2010
Schlagworte:	Physik Lehrbuch
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XXXVII, 447 S. Ill., graph. Darst.
ISBN:	0123751128 9780123751126

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE ............................................... xiii INTRODUCTION .......................................... xvii CHAPTER 1 The Wave-Particle Duality ......................... 1 1.1 The Particle Model of Light ......................... 1 1.1.1 The Photoelectric Effect ...................... 1 1.1.2 The Absorption and Emission of Light by Atoms .......... 5 1.1.3 The Compton Effect ......................... 13 1.2 The Wave Model of Radiation and Matter ................. l4 1.2.1 X-Ray Scattering .......................... lM- 1.2.2 Electron Waves ........................... 15 Suggestions for Further Reading ......................... 18 Basic Equations .................................. 18 Summary ...................................... 19 Questions ...................................... 19 Problems ...................................... 20 CHAPTER 2 The Schrödinger Wave Equation ..................... 23 2.1 The Wave Equation ............................. 23 2.2 Probabilities and Average Values ...................... 28 2.3 The Finite Potential Well .......................... 32 2.4 The Simple Harmonic Oscillator ....................... 35 2.4.1 The Schrödinger Equation for the Oscillator ............ 36 2.5 Time Evolution of the Wave Function .................... 38 Suggestion for Further Reading .......................... 4l Basic Equations .................................. 4l Summary ...................................... 42 Questions ...................................... 43 Problems ...................................... 44 CHAPTER 3 Operators and Waves ............................ 47 3.1 Observables, Operators, and Eigenvalues ................. 48 3.2 * Algebraic Solution of the Oscillator .................... 52 3.3 Electron Scattering ............................. 57 3.3.1 Scattering from a Potential Step .................. 57 3.3.2 Barrier Penetration and Tunneling ................. 61 3.4 The Heisenberg Uncertainty Principle ................... б4 3.4.1 The Simultaneous Measurement of Тшо Variables ......... б4 3.4.2 Wave Packets and the Uncertainty Principle ............ 67 3.4.3 Average Value of the Momentum and the Energy ......... 69 CONTENTS viii Suggestion for Further Reading .......................... 71 Basic Equations .................................. Summary ...................................... Questions ...................................... Problems ...................................... 73 CHAPTER ·* Hydrogen Atom ................................ 7S 4.1 The Gross Structure of Hydrogen ...................... 75 4.1.1 The Schrödinger Equation in Three Dimensions .......... 75 4.1.2 The Energy Levels of Hydrogen .................. 76 4.1.3 The Wave Functions of Hydrogen ................. 78 4.1.4 Probabilities and Average Values in Three Dimensions ...... 81 4.1.5 The Intrinsic Spin of the Electron .................. 83 4.2 Radiative Transitions ............................ 84 4.2.1 The Einstein A and Є Coefficients ................. 84 4.2.2 Transition Probabilities ....................... 85 4.2.3 Selection Rules ........................... 90 4.3 The Fine Structure of Hydrogen ...................... 91 4.3.1 The Magnetic Moment of the Electron ............... 91 4.3.2 The Stern-Gerlach Experiment ................... 94 4.3.3 The Spin of the Electron ...................... 95 4.3.4 The Addition of Angular Momentum ................ 96 4.3.5 Rule for Addition of Angular Momenta ............... 97 4.3.6 The Fine Structure ......................... 98 4.3.7 The Zeeman Effect ........................ 99 Suggestion for Further Reading .......................... 101 Basic Equations .................................. 102 Summary ...................................... 103 Questions ...................................... 104 Problems ...................................... 105 CHAPTER 5 Many-Electron Atoms ............................ 109 5.1 The Independent-Particle Model ...................... 109 5.1.1 Antisymmetric Wave Functions and the Pauli Exclusion Principle ......................... 110 5.1.2 The Central-Field Approximation .................. Ill 5.2 Shell Structure and the Periodic Table ................... 113 5.3 The LS Term Energies ............................ Il4 5.4 Configurations of Тшо Electrons ...................... 115 5.4.1 Configurations of Equivalent Electrons ............... 116 5.4.2 Configurations of Тшо Nonequivalent Electrons .......... 118 5.5 The Hartree-Fock Method .......................... 118 5.5.1 A Hartree-Fock Applet ....................... 121 5.5.2 The Size of Atoms and the Strength of Their Interactions ..... 123 Suggestion for Further Reading .......................... 126 Basic Equations .................................. 126 Summary ............................. 127 Questions ............................ 127 Problems .......................... 128 CONTENTS CHAPTER 6 The Emergence of Masers and Lasers .................. 131 6.1 Radiative Transitions ............................ 131 6.2 Laser Amplification ............................. 132 6.3 Laser Cooling ................................ 136 6.4 * Magneto-Optical Traps ........................... 137 Suggestions for Further Reading ......................... l4l Basic Equations .................................. lM-1 Summary ...................................... l42 Questions ...................................... l42 Problems ...................................... 143 CHAPTER 7 Statistical Physics .............................. l45 7.1 The Nature of Statistical Lams ....................... l45 7.2 An Ideal Gas ................................. l48 7.3 Applications of Maxiuell-Boltzmann Statistics ............... 151 7.3.1 МахшеІІ Distribution of the Speeds of Gas Particles ....... 151 7.3.2 Black-Body Radiation ........................ 158 7.4 Entropy and the Laujs of Thermodynamics ................. 163 7.4.1 The Four Lams of Thermodynamics ................ 166 7.5 A Perfect Quantum Gas ........................... 168 7.6 Bose-Einstein Condensation ........................ 173 7.7 Free-Electron Theory of Metals ....................... 176 Suggestions for Further Reading ......................... 180 Basic Equations .................................. 180 Summary ...................................... 182 Questions ...................................... 183 Problems ...................................... 184 CHAPTER 8 Electronic Structure of Solids ....................... 187 8.1 Introduction ................................. 187 8.2 The Bravais Lattice ............................. 188 8.3 Additional Crystal Structures ........................ 192 8.3.1 The Diamond Structure ....................... 192 8.3.2 The Hexagonal Close-Packed Structure .............. 193 8.3.3 The Sodium Chloride Structure ................... 194 8.4 The Reciprocal Lattice ............................ 194 8.5 Lattice Planes ................................ 198 8.6 Bloch s Theorem ............................... 203 8.7 Diffraction of Electrons by an Ideal Crystal ................. 208 8.8 The Band Gap ................................ 210 8.9 Classification of Solids ............................ 212 8.9.1 The Band Picture .......................... 212 8.9.2 The Bond Picture .......................... 213 Suggestions for Further Reading ......................... 216 Basic Equations .................................. 216 Summary ...................................... 218 Questions ...................................... 218 Problems ...................................... 219 ix CONTENTS CHAPTER 9 Charge Carriers in Semiconductors ................... 223 9.1 Density of Charge Carriers in Semiconductors ............... 223 9.2 Doped Crystals ................................ 227 9.3 A Feui Simple Devices ............................ 228 9.3.1 The p -п Junction .......................... 228 9.3.2 Bipolar Transistors ......................... 230 9.3.3 Junction Field-Effect Transistors (JFET) ............. 231 9.3.4 MOSFETs .............................. 232 Suggestions for Further Reading ......................... 233 Summary ...................................... 233 Questions ...................................... 233 CHAPTER 10 Semiconductor Lasers ............................ 235 10.1 Motion of Electrons in a Crystal ....................... 235 10.2 Band Structure of Semiconductors ..................... 237 10.2.1 Conduction Bands .......................... 237 10.2.2 Valence Bands ............................ 238 10.2.3 Optical Transitions ......................... 239 10.3 Heterostructures .............................. 240 10.3.1 Properties of Heterostructures ................... 240 10.3.2 Experimental Methods ....................... 242 10.3.3 TheoreticalMethods ........................ 243 10.3.4 Band Engineering .......................... 244 10.4 Quantum Wells ................................ 245 10.4.1 The Finite Well ........................... 246 10.4.2 Tujo-Dimensional Systems ..................... 24б 10.4.3 Quantum Wells in Heterostructures ................ 248 10.5 Quantum Barriers .............................. 250 10.5.1 Scattering from a Potential Step .................. 250 10.5.2 r-Matrices .............................. 252 10.6 Reflection and Transmission of Light .................... 255 10.6.1 Reflection and Transmission by an Interface ............ 256 10.6.2 The Fabry-Perot Laser ....................... 258 10.7 Phenomenological Description of Diode Lasers .............. 259 10.7.1 The Rate Equation ......................... 260 10.7.2 Well Веіош Threshold ........................ 262 10.7.3 The Laser Threshold ........................ 263 10.7.4 Above Threshold .......................... 2б4 Suggestions for Further Reading ......................... 265 Basic Equations .................................. 265 Summary ...................................... 267 Questions ...................................... 267 Problems ...................................... 268 CHAPTER U Relativity I .................................... 271 11.1 Introduction ................................. 271 11.2 Galilean Transformations .......................... 271 11.3 The Relative Nature of Simultaneity .................... 274 CONTENTS 11.4 Lorentz Transformation ........................... 277 11.4.1 The Transformation Equations ................... 277 11.4.2 Lorentz Contraction ......................... 280 11.4.3 Time Dilation ............................ 281 11.4.4 The Invariant Space-Time Interval ................. 285 11.4.5 Addition of Velocities ........................ 286 11.4.6 The Doppler Effect ......................... 287 11.5 Space-Time Diagrams ............................ 289 11.5.1 Particle Motion ........................... 290 11.5.2 Lorentz Transformations ...................... 293 11.5.3 The Light Cone ........................... 294 11.6 Four-Vectors ................................. 295 Suggestions for Further Reading ......................... 301 Basic Equations .................................. 301 Summary ...................................... 303 Questions ...................................... 303 Problems ...................................... 304 CHAPTER 12 Relativity II ................................... 307 12.1 Momentum and Energy ........................... 307 12.2 Conservation of Energy and Momentum .................. 311 12.3 TheDirac Theory of the Electron ..................... 315 12.3.1 RevieuioftheSchrödinger Theory ................. 315 12.3.2 The Klein-Gordon Equation ..................... 317 xi 12.3.3 The Dirac Equation ......................... 318 12.3.4 Plane Wave Solutions of the Dirac Equation ............ 322 12.4 * Field Quantization ............................. 326 Suggestions for Further Reading ......................... 327 Basic Equations .................................. 328 Summary ...................................... 330 Questions ...................................... 330 Problems ...................................... 331 CHAPTER 13 Particle Physics ................................ 333 13.1 Leptons and Quarks ............................. 333 13.2 Conservation Laujs ............................. 34l 13.2.1 Energy, Momentum, and Charge .................. 34l 13.2.2 Lepton Number ........................... 342 13.2.3 Baryon Number ........................... 344 13.2.4 Strangeness ............................. 34б 13.2.5 Charm, Beauty, and Truth ...................... 348 13.3 Spatial Symmetries ............................. 349 13.3.1 Angular Momentum of Composite Systems ............ 349 13.3.2 Parity ................................ 351 13.3.3 Charge Conjugation ......................... 353 13.4 Isospin and Color ............................... 355 13.4.1 Isospin ................................ 356 13.4.2 Color ................................. 361 CONTENTS 13.5 Feynman Diagrams ............................. Зб4 13.5.1 Electromagnetic Interactions .................... 366 13.5.2 Weak Interactions .......................... 367 13.5.3 Strong Interactions ......................... 369 13.6 The Flavor and Color SU{3) Symmetries .................. 370 13.6.1 The SU(3) Symmetry Group ..................... 371 13.6.2 The Representations of SU(3) ................... 374 13.7 Gauge Invariance and the Higgs Boson .................. 379 Suggestions for Further Reading ......................... 382 Basic Equations .................................. 382 Summary ...................................... 384 Questions ...................................... 384 Problems ...................................... 385 CHAPTER l4 Nuclear Physics ................................ 389 14.1 Introduction ................................. 389 14.2 Properties of Nuclei ............................. 389 14.2.1 Nuclear Sizes ............................ 390 14.2.2 Binding Energies .......................... 393 14.2.3 The Semiempirical Mass Formula .................. 395 14.3 Decay Processes .............................. 397 14.3.1 Alpha Decay ............................. 399 14.3.2 The ^-Stability Valley ........................ 400 14.3.3 Gamma Decay ............................ 403 14.3.4 Natural Radioactivity ........................ 4o4 14.4 The Nuclear Shell Model ........................... 4o4 14.4.1 Nuclear Potential Wells ....................... 405 14.4.2 Nucleón States ........................... 405 14.4.3 Magic Numbers ........................... 408 14.4.4 The Spin-Orbit Interaction ..................... 408 14.5 Excited States of Nuclei ........................... 409 Suggestions for Further Reading ......................... 4l3 Basic Equations .................................. 4l4 Summary ...................................... 4l4 Questions ...................................... 4l4 Problems ...................................... 415 APPENDIX A Natural Constants and Conversion Factors .............. 4l9 APPENDIXB Atomic Masses ................................. 421 APPENDIX С Solution of the Oscillator Equation ................... 427 APPENDIX D The Average Value of the Momentum .................. 433 APPENDIXE TheHartree-FockApplet .......................... 435 APPENDIX F Integrals That Arise in Statistical Physics ............... 437 APPENDIXG The Abinit Applet ............................... 44l INDEX ................................................. І4Ц3 Odern Physics for Scientists and Engineers John C. Morrison Modern Physics for Scientists and Engineers presents the ideas that have shaped modern physics and provides an introduction to current research in various fields of physics. Taking into account the needs and interests of science and engineering students, the book begins with a brief and focused account of historical events leading to the formulation of modern quantum theory, while ensuing chapters go deeper into the underlying physics. Topics such as Bloch s theorem and semiconductor heterostructures help to give engineering students the physics background they need to benefit from the courses they will later take on semiconductor devices, while subjects like Bőse-Einstein condensation and Feynman diagrams help students appreciate the range and scope of contemporary physics. KEY FEATURES • Emphasis on modern atomic, statistical, and condensed matter physics • Contains a phenomenological description of semiconductor lasers • Chapters on relativity theory include a description of the Dirac equation ANCILLARIES Companion Web Site with Instructor s Manual and Student Solutions Manual available online SPECIAL FEATURE Applets are available on the Companion Web Site to allow students to solve real problems in atomic and condensed matter physics 9780123751126 MODERN PHYSICS 780123 751126
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