A primer on Hilbert space theory : linear spaces, topological spaces, metric spaces, normed spaces, and topological groups

Bibliographic Information

A primer on Hilbert space theory : linear spaces, topological spaces, metric spaces, normed spaces, and topological groups

Carlo Alabiso, Ittay Weiss

(Unitext for physics)

Springer, c2021

2nd ed

Available at  / 5 libraries

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Includes bibliographical references and index

Description and Table of Contents

Description

This book offers an essential introduction to the theory of Hilbert space, a fundamental tool for non-relativistic quantum mechanics. Linear, topological, metric, and normed spaces are all addressed in detail, in a rigorous but reader-friendly fashion. The rationale for providing an introduction to the theory of Hilbert space, rather than a detailed study of Hilbert space theory itself, lies in the strenuous mathematics demands that even the simplest physical cases entail. Graduate courses in physics rarely offer enough time to cover the theory of Hilbert space and operators, as well as distribution theory, with sufficient mathematical rigor. Accordingly, compromises must be found between full rigor and the practical use of the instruments. Based on one of the authors's lectures on functional analysis for graduate students in physics, the book will equip readers to approach Hilbert space and, subsequently, rigged Hilbert space, with a more practical attitude. It also includes a brief introduction to topological groups, and to other mathematical structures akin to Hilbert space. Exercises and solved problems accompany the main text, offering readers opportunities to deepen their understanding. The topics and their presentation have been chosen with the goal of quickly, yet rigorously and effectively, preparing readers for the intricacies of Hilbert space. Consequently, some topics, e.g., the Lebesgue integral, are treated in a somewhat unorthodox manner. The book is ideally suited for use in upper undergraduate and lower graduate courses, both in Physics and in Mathematics.

Table of Contents

  • 1. Introduction and preliminaries 1.1. Hilbert Space Theory - A Quick Overview.1.1.1. The Real Numbers - Where it All begins.1.1.2. Linear Spaces.1.1.3. Topological Spaces.1.1.4. Metric Spaces.1.1.5. Normed Spaces and Banach Spaces.1.1.6. Topological Groups.1.2. Preliminaries.1.2.1. Sets.1.2.2. Common Sets.1.2.3. Relations Between Sets.1.2.4. Families of Sets
  • Union and Intersection.1.2.5. Set Difference, Complementation, and De Morgan's Laws.1.2.6. Finite Cartesian Products.1.2.7. Functions.1.2.8. Arbitrary Cartesian Products.1.2.9. Direct and Inverse Images.1.2.10. Indicator Functions.1.2.11. Cardinality.1.2.12. The Cantor-Shroeder-Berenstein Theorem.1.2.13. Countable Arithmetic.1.2.14. Relations.1.2.15. Equivalence Relations.1.2.16. Ordered Sets.1.2.17. Zorn's Lemma.1.2.18. A Typical Application of Zorn's Lemma.1.2.19. The Real Numbers. 2. Linear Spaces2.1. Linear Spaces - Elementary Properties and Examples.2.1.1. Elementary Properties of Linear Spaces.2.1.2. Examples of Linear Spaces.2.2. The Dimension of a Linear Space. 2.2.1. Linear Independence, Spanning Sets, and Bases.2.2.2. Existence of Bases.2.2.3. Existence of Dimension.2.3. Linear Operators.2.3.1. Examples of Linear Operators.2.3.2. Algebra of Operators.2.3.3. Isomorphism.2.4. Subspaces, Products, and Quotients.2.4.1. Subspaces.2.4.2. Kernels and Images.2.4.3. Products and Quotients.2.4.4. Complementary Subspaces.2.5. Inner Product Spaces and Normed Spaces.2.5.1. Inner Product Spaces.2.5.2. The Cauchy-Schwarz Inequality.2.5.3. Normed Spaces.2.5.4. The Family of `p Spaces.2.5.5. The Family of Pre-Lp Spaces. 3. Topological Spaces3.1. Topology - Definition and Elementary Results.3.1.1. Definition and Motivation.3.1.2. More Examples.3.1.3. Elementary Observations.3.1.4. Closed Sets.3.1.5. Bases and Subbases.3.2. Subspaces, Point-Set Relationships, and Countability Axioms.3.2.1. Subspaces and Point-Set Relationships.3.2.2. Sequences and Convergence.3.2.3. Second Countable and First Countable Spaces.3.3. Constructing Topologies.3.3.1. Generating Topologies.3.3.2. Coproducts, Products, and Quotients. 3.4. Separation and Connectedness.3.4.1. The Huasdorff Separation Property.3.4.2. Path-Connectedness and Connected Spaces.3.5. Compactness. 4. Metric Spaces4.1. Metric Spaces - Definition and Examples.4.2. Topology and Convergence in a Metric Space.4.2.1. The Induces Topology.4.2.2. Convergence in a Metric Space.4.3. Non-Expanding Functions and Uniform Continuity.4.4. Complete Metric Spaces.4.4.1. Complete Metric Spaces.4.4.2. Banach's Fixed Point Theorem.4.4.3. Baire's Theorem.4.4.4. Completion of a Metric Space.4.5. Compactness and Boundedness. 5. The Lebesgue Integral Following Mikusiniski 6. Banach Spaces 6.1. Semi-Norms, Norms, and Banach Spaces.6.1.1. Semi-Norms and Norms.6.1.2. Banach Spaces.6.1.3. Bounded Operators.6.1.4. The Open Mapping Theorem.6.1.5. Banach Spaces of Linear and Bounded Operators.6.2. Fixed Point Techniques in Banach Spaces.6.2.1. Systems of Linear Equations.6.2.2. Cauchy's Problem and the Volterra Equation.6.2.3. Fredholm Equations.6.3. Inverse Operators.6.3.1. Existence of Bounded Inverses.6.3.2. Fixed Point Techniques Revisited.6.4. Dual Spaces.6.4.1. Duals of Classical Spaces.6.4.2. The Hahn-Banach Theorem.6.5. Unbounded Operators and Locally Convex Spaces.6.5.1. Closed Operators.6.5.2. Locally Convex Spaces. 7. Hilbert Spaces 7.1. Definition and Examples.7.2. Orthonormal Bases.7.3. Orthogonal Projections.7.4. Riesz Representation Theorem.7.5. Fourier Series.7.6. Self-adjoint operators.7.7. The Schroedinger Equation and the Heisenberg Uncertainty Principle. 8. A Survery of mathematical structures related to Hilbert space theory8.1. Topological Groups.8.1.1. Groups and Homomorphisms.8.1.2. Topological Groups and Homomorphisms.8.1.3. Topological Subgroups.8.1.4. Quotient Groups.8.1.5. Uniformities.8.2. Topological Vector Spaces.8.3. Sobolev Spaces.8.4. C algebras.8.5. Distributions.8.6. Dagger compact categories.9. Solved Problems

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Details

  • NCID
    BC0616894X
  • ISBN
    • 9783030674168
  • Country Code
    sz
  • Title Language Code
    eng
  • Text Language Code
    eng
  • Place of Publication
    Cham
  • Pages/Volumes
    xxii, 328 p.
  • Size
    25 cm
  • Classification
  • Subject Headings
  • Parent Bibliography ID
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