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  • 现代量子力学(修订版)[平装]
  • 共4个商家     28.80元~33.10
  • 作者:J.J.Sakurai(作者)
  • 出版社:世界图书出版公司;第1版(2006年1月1日)
  • 出版时间:
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  • ISBN:9787506273145

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    国内已经出版了不少高等量子力学的教材,但与之直接对应的国外教材却并不多见。《现代量子力学》(修订版)从其设定的读者对象、它的选材范围以及其深度与广度来看,都非常适合这方面的要求。如果从双语教学角度来考虑,它无疑也是理想教材的候选者。

    作者简介

    Jun John Sakurai,was born in1993in Tokyo and came to the United States as a high schooll student in 1949.He studied at Harvard and at Cornell,where he received his h.D.in 1958.He was then appointed assistant professor of Physics at the University of Chicago,and became a full professor in 1964.He stayed at Chicago until 1970 when he moved to the University of California at Los Angeles,Where he remained until his death.During his lifetime he wrote 119 articles in theoretical physics of elementary particles as well as several books and monographs on both quantum and particle theory.

    目录

    Contents
    Foreword
    Preface
    In Memoriam
    1 FUNDAMENTAL CONCEPTS
    1.1 The Stern-gerlach Experiment
    1.2 Kets,Bras,and Operators
    1.3 Base Kets and Matrix Representations
    1.4 Measurements,Observales,and the Uncertainty Relations
    1.5 Change of Basis
    1.6 Position,Momentum,and Translation
    1.7 Wave Functions in Postion and Momentum Space
    Problems
    2 QUANTUM DYNAMICS
    2.1 Time Evolution and the Schrodinger Equation
    2.2 The Schrodinger Versus the Heisenberg Picture
    2.3 Simple Harmonic Oscillator
    2.4 Schrodingers Wave Equation
    2.5 Propagators and Feynman Path Integrals
    2.6 Potentials and Gauge Transformations
    Problems
    3 THEORY OF ANGULAR MOMENTUM
    3.1 Rotations and Angular Momentum Commutation Relations
    3.2 Spin1/2 Systems and Finite Roations
    3.3 SO(3),Su(2),and Euler Roations
    3.4 Density Operators and Pure Versus Muixed Ensembles
    3.5 Eigenvalues and Eigenstates of Angular Momentum
    3.6 Orbital Angular Momentum
    3.7 Addition of Angular Momenta
    3.8 Schwinger s Oscillator Model of Angular Momentum
    3.9 Spin Corelation Measurements and Bell s Inequality
    3.10 Tensor Operators
    Problems
    4 SYMMETRY IN QUANTUM MECHANICS
    4.1 Symmetries,COnservation Laws and Degeneracies
    4.2 Discrete Symmetries,Parity,or Space Inversion
    4.3 Lattice Translation as a iscrete Symmetry
    4.4 The Time-Reversal Discrete Symmetry
    Problems
    5 APPROXIMATION METHODS
    5.1 Time-Independent Perturbation Theory:Nondegenerate Case
    5.2 Time-Independent Perturbation Theory:The Degenerate Case
    5.3 Hydrogenlike Atoms:Fine Structure and the Zeeman Effect
    5.4 Variational Methods
    5.5 Time-Dependent Potentials:The Interaction Picture
    5.6 Time-Dependent Perturbation Theory
    5.7 Applications to Interactions with the CLassical Radiation Field
    5.8 Energy Shift and Decay Width
    Problems
    6 IDENTICAL PARTICLES
    6.1 Permutation Symmetry
    6.2 Symmetrization Postulate
    6.3 Two-Electron System
    6.4 The Helium Aton
    6.5 Permutation Symmetry and Young Tableaux
    Problems
    7 SCATTERING THEROY
    7.1 The Lippmann-Schwinger Equation
    7.2 The Born Approximation
    7.3 Optical Theorem
    7.4 Eikonal Approximation
    7.5 Free-Particle States:Plane Waves Versus Spherical Waves
    7.6 Method of Partial Waves
    7.7 Low-Energy Scattering and Bound States
    7.8 Resonance Scattering
    7.9 Identical Particles and Scattering
    7.10 Symmerty Considerations in Scattering
    7.11 Time-Dependent Formulation of Scattering
    7.12 Inelastic Electron-Atom Scattering
    7.13 Coulomb Scattering
    Problems
    AppendixA
    AppendixB
    AppendixC
    SupplementⅠ Adiabatic Change and Geometrical Phase
    SupplementⅡ Non-Exponential Decays
    Bibliography
    INdex