分析流形和物理學

《分析流形和物理學(第1卷):基礎(修訂版)》內容簡介：Alltooofteninphysicsfamiliarityisasubstituteforunderstanding,andthebeginnerwholacksfamiliaritywonderswhichisatfault:physicsorhimself.Physicalmathematicsprovideswelldefinedconceptsandtechni-quesforthestudyofphysicalsystems.Itismorethanmathematicaltechniquesusedinthesolutionofproblemswhichhavealreadybeenformulated;ithelpsintheveryformulationofthelawsofphysicalsystemsandbringsabetterunderstandingofphysics.Thusphysicalmathematicsincludesmathematicswhichgivespromiseofbeingusefulinouranalysisofphysicalphenomena.Attemptstousemathematicsforthispurposemayfailbecausethemathematicaltoolistoocrude;physicsmaythenindicatealongwhichlinesitshouldbesharpened.Infact,theanalysisofphysicalsystemshasspurredmanyanewmathematicaldevelopment.Considerationsofrelevancetophysicsunderliethechoiceofmaterialincludedhere.Anychoiceisnecessarilyarbitrary;weincludedfirstthetopicswhichweenjoymostbutwesoonrecognizedthatinstantgratifica-tionisashortrangecriterion.Wethenincludedmaterialwhichcanbeappreciatedonlyafteragreatdealofintellectualasceticismbutwhichmaybefartherreaching.Finally,thisbookgathersthestartingpointsofsomegreatcurrentsofcontemporarymathematics.Itisintendedforanadvancedphysicalmathematicscourse.

1. Review of Fundamental Notions of Analysis

A. Set Theory, Definition

1. Sets

2. Mappings

3. Relations

4. Orderings

B. Algebraic Structures, Definitions

I. Groups

2. Rings

3. Modules

4. Algebras

5. Linear spaces

C. Topology

1. Definitions

2. Separation

3. Base

4. Convergence

5. Covering and compactness

6. Connectedness

7. Continuous mappings

8. Multiple connectedness

9. Associated topologies

10. Topology related to other structures

11. Metric spaces

metric spaces

Cauchy sequence; completeness

12. Banach spaces

normed vector spaces

Banach spaces

strong and weak topology; compactedness

13. Hilbert spaces

D. Integration

1. Introduction

2. Measures

3. Measure spaces

4. Measurable functions

5. Integrable functions

6. Integration on locally compact spaces

7.Signed and complex measures

8. Integration of vector valued functions

9. L 'space

10. L'space

E. Key Theorems in Linear Functional Analysis

1. Bounded linear operators

2. Compact operators

3. Open mapping and closed graph theorems

Problems and Exercises

Problem 1: Clifford algebra; Spin（4）

Exercise 2: Product topology

Problem 3: Strong and weak topologies in L2

Exercise 4: Holder spaces

See Problem VI 4: Application to the Schr6dinger equation

II. Differential Calculus on Banach Spaces

A. Foundations

1. Definitions. Taylor expansion

2. Theorems

3. Diffeomorphisms

4. The Euler equation

5. The mean value theorem

6. Higher order differentials

B. Calculus of Variations

I. Necessary conditions for minima

2. Sufficient conditions

3. Lagrangian problems

C. Implicit Function Theorem. Inverse Function Theorem

1. Contracting mapping theorems

2. Inverse function theorem

3. Implicit function theorem

4. Global theorems

D. Di~erential Equations

1. First order differential equation

2. Existence and uniqueness theorems for the lipschitzian case

Problems and Exercises

Problem 1: Banach spaces, first variation, linearized equation

Problem 2: Taylor expansion of the action; Jacobi fields; the

Feynman-Green function; the Van Vleck matrix; conjugate points; caustics

Problem 3: Euler-Lagrange equation: the small disturbance

equation: the soap bubble problem: Jacobi fields

III. Differentiable Manifolds, Finite Dimensional Case

A. Definitions

1. Differentiable manifolds

2. Diffeomorphisms

3. Lie groups

B. Vector Fields; Tensor Fields

I. Tangent vector space at a point

tangent vector as a derivation

tangent vector defined by transformation properties

tangent vector as an equivalence class of curves

images under differentiable mappings

2. Fibre bundles

definition

bundle morphisms

tangent bundle

frame bundle

principal fibre bundle

3. Vector fields

vector fields

moving frames

images under diffeomorphisms

4. Covariant vectors; cotangent bundles

dual of the tangent space

space of differentials

cotangent bundle

reciprocal images

5. Tensors at a point

tensors at a point

tensor algebra

6. Tensor bundles; tensor fields

C Groups of Transformations

I. Vector fields as generators of transformation groups

2. Lie derivatives

3. Invariant tensor fields

D. Lie Groups

1. Definitions; notations

2. Left and right translations; Lie algebra; structure constants

3. One-parameter subgroups

4. Exponential mapping; Taylor expansion; canonical coordinates

5. Lie groups of transformations; realization

6. Adjoint representation

7. Canonical form, Maurer——Cartan form

Problems and Exercises

Problem 1: Change of coordinates on a fiber bundle,

configuration space, phase space

Problem 2: Lie algebras of Lie groups

Problem 3: The strain tensor

Problem 4: Exponential map; Taylor expansion; adjoint map; left and

right differentials; Haar measure

Problem 5: The group manifolds of so（3） and SU（2）

Problem 6: The 2-sphere

IV. Integration on Manifolds

A. Exterior Digerential Forms

1. Exterior algebra

exterior product

local coordinates; strict components

change of basis

2. Exterior differentiation

3. Reciprocal image of a form （pull back）

4. Derivations and antiderivations

definitions

interior product

5. Forms defined on a Lie group

invariant forms

Maurer——Cartan structure equations

6. Vector valued differential forms

B. Integration

1. Integration

orientation

odd forms

integration of n-forms in R'

partitions of unity

properties of integrals

2. Stokes' theorem

p-chains

integrals of p-forms on p-chains

boundaries

V. Riemannian Manifolds Kahlerian Manifolds

VI Distributions

VII Differentiable Manifolds, Infinite Dimensional Vase

1. Sets

2. Mappings

3. Relations

4. Orderings

B. Algebraic Structures, Definitions

I. Groups

2. Rings

3. Modules

4. Algebras

5. Linear spaces

C. Topology

1. Definitions

2. Separation

3. Base

4. Convergence

5. Covering and compactness

6. Connectedness

7. Continuous mappings

8. Multiple connectedness

9. Associated topologies

10. Topology related to other structures

11. Metric spaces

metric spaces

Cauchy sequence; completeness

12. Banach spaces

normed vector spaces

Banach spaces

strong and weak topology; compactedness

13. Hilbert spaces

D. Integration

1. Introduction

2. Measures

3. Measure spaces

4. Measurable functions

5. Integrable functions

6. Integration on locally compact spaces

7.Signed and complex measures

8. Integration of vector valued functions

9. L 'space

10. L'space

E. Key Theorems in Linear Functional Analysis

1. Bounded linear operators

2. Compact operators

3. Open mapping and closed graph theorems

Problems and Exercises

Problem 1: Clifford algebra; Spin（4）

Exercise 2: Product topology

Problem 3: Strong and weak topologies in L2

Exercise 4: Holder spaces

See Problem VI 4: Application to the Schr6dinger equation

II. Differential Calculus on Banach Spaces

A. Foundations

1. Definitions. Taylor expansion

2. Theorems

3. Diffeomorphisms

4. The Euler equation

5. The mean value theorem

6. Higher order differentials

B. Calculus of Variations

I. Necessary conditions for minima

2. Sufficient conditions

3. Lagrangian problems

C. Implicit Function Theorem. Inverse Function Theorem

1. Contracting mapping theorems

2. Inverse function theorem

3. Implicit function theorem

4. Global theorems

D. Di~erential Equations

1. First order differential equation

2. Existence and uniqueness theorems for the lipschitzian case

Problems and Exercises

Problem 1: Banach spaces, first variation, linearized equation

Problem 2: Taylor expansion of the action; Jacobi fields; the

Feynman-Green function; the Van Vleck matrix; conjugate points; caustics

Problem 3: Euler-Lagrange equation: the small disturbance

equation: the soap bubble problem: Jacobi fields

III. Differentiable Manifolds, Finite Dimensional Case

A. Definitions

1. Differentiable manifolds

2. Diffeomorphisms

3. Lie groups

B. Vector Fields; Tensor Fields

I. Tangent vector space at a point

tangent vector as a derivation

tangent vector defined by transformation properties

tangent vector as an equivalence class of curves

images under differentiable mappings

2. Fibre bundles

definition

bundle morphisms

tangent bundle

frame bundle

principal fibre bundle

3. Vector fields

vector fields

moving frames

images under diffeomorphisms

4. Covariant vectors; cotangent bundles

dual of the tangent space

space of differentials

cotangent bundle

reciprocal images

5. Tensors at a point

tensors at a point

tensor algebra

6. Tensor bundles; tensor fields

C Groups of Transformations

I. Vector fields as generators of transformation groups

2. Lie derivatives

3. Invariant tensor fields

D. Lie Groups

1. Definitions; notations

2. Left and right translations; Lie algebra; structure constants

3. One-parameter subgroups

4. Exponential mapping; Taylor expansion; canonical coordinates

5. Lie groups of transformations; realization

6. Adjoint representation

7. Canonical form, Maurer——Cartan form

Problems and Exercises

Problem 1: Change of coordinates on a fiber bundle,

configuration space, phase space

Problem 2: Lie algebras of Lie groups

Problem 3: The strain tensor

Problem 4: Exponential map; Taylor expansion; adjoint map; left and

right differentials; Haar measure

Problem 5: The group manifolds of so（3） and SU（2）

Problem 6: The 2-sphere

IV. Integration on Manifolds

A. Exterior Digerential Forms

1. Exterior algebra

exterior product

local coordinates; strict components

change of basis

2. Exterior differentiation

3. Reciprocal image of a form （pull back）

4. Derivations and antiderivations

definitions

interior product

5. Forms defined on a Lie group

invariant forms

Maurer——Cartan structure equations

6. Vector valued differential forms

B. Integration

1. Integration

orientation

odd forms

integration of n-forms in R'

partitions of unity

properties of integrals

2. Stokes' theorem

p-chains

integrals of p-forms on p-chains

boundaries

V. Riemannian Manifolds Kahlerian Manifolds

VI Distributions

VII Differentiable Manifolds, Infinite Dimensional Vase