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量子力学导论(第4版影印版)(英文版)

  • 定价: ¥169
  • ISBN:9787519255312
  • 开 本:16开 平装
  • 作者:(德)W.格雷钠
  • 立即节省:
  • 2019-03-01 第1版
  • 2019-03-01 第1次印刷
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导语

  

内容提要

  

    德国著名理论物理学家W.格雷钠等教授撰写的13卷集“理论物理学教科书”,是一套内容完整实用面向大学生和硕士研究生的现代物理学教材,各卷内容独立完整。它以系统的、统一的、连贯的方式阐述了现代理论物理学的各个方面。这套教材面世后,在德国产生了巨大的影响,其英文版的及时推出,对全世界理论物理学的教学也起了很好的促进作用。
    本书是《量子力学导论(第4版影印版)(英文版)》。

目录

1.The Quantization of Physical Quantifies
  1.1  Light Quanta
  1.2  The Photoelectric Effect
  1.3  The Compton Effect
  1.4  The Ritz Combination Principle
  1.5  The Franck-Hertz Experiment
  1.6  The Stem-Gerlach Experiment
  1.7  Biographical Notes
2.The Radiation Laws
  2.1  A Preview of the Radiation of Bodies
  2.2  What is Cavity Radiation?
  2.3  The Rayleigh-Jeans Radiation Law:The Electromagnetic Eigenmodes of a Cavity
  2.4  Planck's Radiation Law
  2.5  Biographical Notes
3.Wave Aspects of Matter
  3.1  De Broglie Waves
  3.2  The Diffraction of Matter Waves
  3.3  The Statistical Interpretation of Matter Waves
  3.4  Mean (Expectation) Values in Quantum Mechanics
  3.5  Three Quantum Mechanical Operators
  3.6  The Superposition Principle in Quantum Mechanics
  3.7  The Heisenberg Uncertainty Principle
  3.8  Biographical Notes
4.Mathematical Foundations of Quantum Mechanics I
  4.1  Properties of Operators
  4.2  Combining Two Operators
  4.3  Bra and Ket Notation
  4.4  Eigenvalues and Eigenfunctions
  4.5  Measurability of Different Observables at Equal Times
  4.6  Position and Momentum Operators
  4.7  Heisenberg's Uncertainty Relations for Arbitrary Observables
  4.8  Angular-Momentum Operators
  4.9  Kinetic Energy
  4.10  Total Energy
  4.11  Biographical Notes
5.Mathematical Supplement
  5.1  Eigendifferentials and the Normalization of Eigenfunctions for Continuous Spectra
  5.2  Expansion into Eigenfunctions
6.The Schrodinger Equation
  6.1  The Conservation of Particle Number in Quantum Mechanics
  6.2  Stationary States
  6.3  Properties of Stationary States
  6.4  Biographical Notes
7.The Harmonic Oscillator
  7.1  The Solution of the Oscillator Equation
  7.2  The Description of the Harmonic Oscillator by Creation and Annihilation Operators
  7.3  Properties of the Operators a and a+
  7.4  Representation of the Oscillator Hamiltonian in Terms of a and a+
  7.5  Interpretation of a and a+
  7.6  Biographical Notes
8.The Transition from Classical to Quantum Mechanics
  8.1  Motion of the Mean Values
  8.2  Ehrenfest's Theorem
  8.3  Constants of Motion, Laws of Conservation
  8.4  Quantization in Curvilinear Coordinates
  8.5  Biographical Notes
9.Charged Particles in Magnetic Fields
  9.1  Coupling to the Electromagnetic Field
  9.2  The Hydrogen Atom
  9.3  Three-Dimensional Electron Densities
  9.4  The Spectrum of Hydrogen Atoms
  9.5  Currents in the Hydrogen Atom
  9.6  The Magnetic Moment
  9.7  Hydrogen-like Atoms
  9.8  Biographical Notes
10.The Mathematical Foundations of Quantum Mechanics II
  10.1  Representation Theory
  10.2  Representation of Operators
  10.3  The Eigenvalue Problem
  10.4  Unitary Transformations
  10.5  The S Matrix
  10.6  The Schrodinger Equation in Matrix Form
  10.7  The Schrtdinger Representation
  10.8  The Heisenberg Representation
  10.9  The Interaction Representation
  10.10  Biographical Notes
11.Perturbation Theory
  11.1  Stationary Perturbation Theory
  11.2  Degeneracy
  11.3  The Ritz Variational Method
  11.4  Time-Dependent Perturbation Theory
  11.5  Time-Independent Perturbation
  11.6  Transitions Between Continuum States
  11.7  Biographical Notes
12.Spin
  12.1  Doublet Splitting
  12.2  The Einstein-de Haas Experiment
  12.3  The Mathematical Description of Spin
  12.4  Wave Functions with Spin
  12.5  The Pauli Equation
  12.6  Biographical Notes
13.A Nonreintivistic Wave Equation with Spin
  13.1  The Linearization of the Schrtdinger Equation
  13.2  Particles in an External Field and the Magnetic Moment
14.Elementary Aspects of the Quantum-Mechanical Many-Body Problem
  14.1  The Conservation of the Total Momentum of a Particle System
  14.2  Centre-of-Mass Motion of a System of Particles in Quantum Mechanics
  14.3  Conservation of Total Angular Momentum in a Quantum-Mechanical Many-Particle System
  14.4  Small Oscillations in a Many-Particle System
  14.5  Biographical Notes
15.Identical Particles
  15.1  The Pauli Principle
  15.2  Exchange Degeneracy
  15.3  The Slater Determinant
  15.4  Biographical Notes
16.The Formal Framework of Quantum Mechanics
  16.1  The Mathematical Foundation of Quantum Mechanics:Hilbert Space
  16.2  Operators in Hilbert Space
  16.3  Eigenvalues and Eigenvectors
  16.4  Operators with Continuous or Discrete-Continuous (Mixed) Spectra
  16.5  Operator Functions
  16.6  Unitary Transformations
  16.7  The Direct-Product Space
  16.8  The Axioms of Quantum Mechanics
  16.9  Free Particles
  16.10  A Summary of Perturbation Theory
17.Conceptual and Philosophical Problems of Quantum Mechanics
  17.1  Determinism
  17.2  Locality
  17.3  Hidden-Variable Theories
  17.4  Bell's Theorem
  17.5  Measurement Theory
  17.6  Schrodinger's Cat
  17.7  Subjective Theories
  17.8  Classical Measurements
  17.9  The Copenhagen Interpretation
  17.10  Indelible Recording
  17.11  The Splitting Universe
  17.12  The Problem of Reality
Subject Index