序 PREFACE PART I THEORY 1 THE WAVE FUNCTION 1 1.1 The Schrodinger Equation 1 1.2 The Statistical Interpretation 2 1.3 Probability 5 1.4 Normalization 12 1.5 Momentum 15 1.6 The Uncertainty Principle 18 2 TIME-INDEPENDENT SCHRODINGER EQUATION 24 2.1 Stationary States 24 2.2 The Infinite Square Well 30 2.3 The Harmonic Oscillator 40 2.4 The Free Particle 59 2.5 The Delta-Function Potential 68 2.6 The Finite Square Well 78 FORMALISM 93 3.1 Hilbert Space 93 3.2 Observables 96 3.3 Eigenfunctions of a Hermitian Operator 100 3.4 Generalized Statistical Interpretation 106 3.5 The Uncertainty Principle 110 3.6 Dirac Notation 118 QUANTUM MECHANICS IN THREE DIMENSIONS 131 4.1 Schr6dinger Equation in Spherical Coordinates 131 4.2 The Hydrogen Atom 145 4.3 Angular Momentum 160 4.4 Spin 171 IDENTICAL PARTICLES 201 5.1 Two-Particle Systems 201 5.2 Atoms 210 5.3 Solids 218 5.4 Quantum Statistical Mechanics 230 PART II APPLICATIONS 6 TIME-INDEPENDENT PERTURBATION THEORY 249 6.1 Nondegenerate Perturbation Theory 249 6.2 Degenerate Perturbation Theory 257 6.3 The Fine Structure of Hydrogen 266 6.4 The Zeeman Effect 277 6.5 Hyperfine Splitting 283 THE VARIATIONAL PRINCIPLE 293 7.1 Theory 293 7.2 The Ground State of Helium 299 7.3 The Hydrogen Molecule Ion 304 THE WKB APPROXIMATION 315 8.1 The #Classical# Region 316 8.2 Tunneling 320 8.3 The Connection Formulas 325 9 TIME-DEPENDENT PERTURBATION THEORY 340 9.1 Two-Level Systems 341 9.2 Emission and Absorption of Radiation 348 9.3 Spontaneous Emission 355 10 THE ADIABATIC APPROXIMATION 368 10.1 The Adiabatic Theorem 368 10.2 Berry#s Phase 376 11 SCATTERING 394 11.1 Introduction 394 11.2 Partial Wave Analysis 399 11.3 Phase Shifts 405 11.4 The Born Approximation 408 INDEX 420 教辅材料申请表