量子力学原理
量子力学原理封面图

量子力学原理

(美) 山卡 (Shankar,R.) , 著

出版社:世界图书出版公司北京公司

年代:2007

定价:99.0

书籍简介:

本书是优秀的量子力学教材,内容丰富,结构严谨,逻辑性强。适用于理论物理学、凝聚态物理学和量子化学等专业的本科生、研究生和相关专业的科研人员。

书籍目录:

1.MathematicalIntroduction

1.1.LinearVectorSpaces:Basics

1.2.InnerProductSpaces

1.3.DualSpacesandtheDiracNotation

1.4.Subspaces

1.5.LinearOperators

1.6.MatrixElementsofLinearOperators

1.7.ActiveandPassiveTransformations

1.8.TheEigenvalueProblem

1.9.FunctionsofOperatorsandRelatedConcepts

1.10.GeneralizationtoInfiniteDimensions

2.ReviewofClassicalMechanics

2.1.ThePrincipleofLeastActionandLagrangianMechanics

2.2.TheElectromagneticLagrangian

2.3.TheTwo-BodyProblem

2.4.HowSmartIsaParticle?

2.5.TheHamiltonianFormalism

2.6.TheElectromagneticForceintheHamiltonianScheme

2.7.CyclicCoordinates,PoissonBrackets,andCanonicalTransformations

2.8.SymmetriesandTheirConsequences.

3.AllIsNotWellwithClassicalMechanics

3.1.ParticlesandWavesinClassicalPhysics

3.2.AnExperimentwithWavesandParticles(Classical)

3.3.TheDouble.SlitExperimentwithLight

3.4.MatterWaves(deBroglieWaves)

3.5.Conclusions

4.ThePostulates-aGeneralDiscussion

4.1.ThePostulates

4.2.DiscussionofPostulatesI-III

4.3.TheSchr6dingerEquation(DottingYourisandCrossingyourhs)

5.SimpleProblemsinOneDimension

5.1.TheFreeParticle

5.2.TheParticleinaBox

5.3.TheContinuityEquationforProbability

5.4.TheSingle-StepPotential:aProbleminScattering

5.5.TheDouble-SlitExperiment

5.6.SomeTheorems

6.TheClassicalLimit

7.TheHarmonicOscillator

7.1.WhyStudytheHarmonicOscillator?

7.2.ReviewoftheClassicalOscillator

7.3.QuantizationoftheOscillator(CoordinateBasis)

7.4.TheOscillatorintheEnergyBasis

7.5.PassagefromtheEnergyBasistotheXBasis

8.ThePathIntegralFormulationofQuantumTheory

8.1.ThePathIntegralRecipe

8.2.AnalysisoftheRecipe

8.3.AnApproximationtoU(t)fortheFreeParticle

8.4.PathIntegralEvaluationoftheFree.ParticlePropagator

8.5.EquivalencetotheSchr6dingerEquation

8.6.PotentialsoftheFormV=a+bx+cx2+dx+exx

9.TheHeisenbergUncertaintyRelations

9.1.Introduction

9.2.DerivationoftheUncertaintyRelations

9.3.TheMinimumUncertaintyPacket

9.4.ApplicationsoftheUncertaintyPrinciple

9.5.TheEnergy-TimeUncertaintyRelation

10.SystemswithNDegreesofFreedom

10.1.NParticlesinOneDimension

10.2.MoreParticlesinMoreDimensions

10.3.IdenticalParticles

11.SymmetriesandTheirConsequences

11.1.Overview

11.2.TranslationalInvarianceinQuantumTheory

11.3.TimeTranslationalInvariance

11.4.ParityInvariance

11.5.Time.ReversalSymmetry

12.RotationalInvarianeeandAngularMomentum

12.1.TranslationsinTwoDimensions

12.2.RotationsinTwoDimensions

12.3.TheEigenvalueProblemofLz

12.4.AngularMomentuminThreeDimensions

12.5.TheEigenvalueProblemofL2andLz

12.6.SolutionofRotationallyInvariantProblems

13.TheHydrogenAtom

13.1.TheEigenvalueProblem

13.2.TheDegeneracyoftheHydrogenSpectrum

13.3.NumericalEstimatesandComparisonwithExperiment

13.4.MultielectronAtomsandthePeriodicTable

14.Spin

14.1.Introduction

14.2.WhatiStheNatureofSpin?

14.3.KinematicsofSpin

14.4.SpinDynamics

14.5.ReturnOfOrbitalDegreesofFreedom

15.AdditionofAngularMomenta

15.1.ASimpleExample

15.2.TheGeneralProblem

15.3.IrreducibleTensor0perators

15.4.ExplanationofSome“Accidental”Degeneracies

16.VariationalandWKBMethods

16.1.TheVariationalMethod.

16.2.TheWentzel-Kramers-BrillouinMethod

17.Time-IndependentPerturbationTheory

17.1.TheFormalism

17.2.SomeExamples

17.3.DegeneratePerturbationTheory

18.Time-DependentPerturbationTheory

18.1.TheProblem.

18.2.First-OrderPerturbationTheory

18.3.HigherOrdersinPerturbationTheory

18.4.AGeneralDiscussionofElectromagneticInteractions

18.5.InteractionofAtomswithElectromagneticRadiation

19.ScatteringTheory

19.1.Introduction

19.2.RecapitulationofOne-DimensionalScatteringandOverview

19.3.TheBornApproximation(Time-DependentDescription)

19.4.BornAgain(TheTime-IndependentApproximation)

19.5.ThePartialWaveExpansion

19.6.Two-ParticleScattering

20.TheDiracEquation

20.1.TheFree-ParticleDiracEquation

20.2.ElectromagneticInteractionoftheDiracParticle

20.3.MoreonRelativisticQuantumMechanics

21.PathIntegrals-II

21.1.DerivationofthePathIntegral

21.2.ImaginaryTimeFormalism

21.3.SpinandFermionPathIntegrals

21.4.Summary

Appendix

A.1.MatrixInversion

A.2.GaussianIntegrals

A.3.ComplexNumbers

A.4.TheiεPrescription

ANSWERSTOSELECTEDEXERCISES

TABLEOFCONSTANTS

INDEX

内容摘要:

  本书是优秀的量子力学教材,内容丰富,结构严谨,逻辑性强。作者从所需的数学知识开始,先复习经典力学,再通过一些实验事实说明经典物理学遇到的困难和引入量子理论的必要性,然后详细阐述量子力学的基本原理及其进一步应用,给出实际问题的具体解决方法和处理过程。本书叙述简明易懂,数学推导和例题分析详细,并附有大量的习题及其答案,是学习量子力学的理想教材。

书籍规格:

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出版地北京出版单位世界图书出版公司北京公司
版次2版印次1
定价(元)99.0语种英文
尺寸14装帧平装
页数印数 1000

书籍信息归属:

量子力学原理是世界图书出版公司北京公司于2007.05出版的中图分类号为 O413.1 的主题关于 量子力学-教材-英文 的书籍。