Overview

Next to the harmonic oscillator and the Coulomb potential the class of two-body models with point interactions is the only one where complete solutions are available. All mathematical and physical quantities can be calculated explicitly which makes this field of research important also for more complicated and realistic models in quantum mechanics. The detailed results allow their implementation in numerical codes to analyse properties of alloys, impurities, crystals and other features in solid state quantum physics. This monograph presents in a systematic way the mathematical approach and unifies results obtained in recent years. The student with a sound background in mathematics will get a deeper understanding of Schrödinger Operators and will see many examples which may eventually be used with profit in courses on quantum mechanics and solid state physics. The book has textbook potential in mathematical physics and is suitable for additional reading in various fields of theoretical quantum physics.

Full Product Details

Author:   Sergio Albeverio ,  Friedrich Gesztesy ,  Raphael Hoegh-Krohn ,  Helge Holden
Publisher:   Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
Imprint:   Springer-Verlag Berlin and Heidelberg GmbH & Co. K
Edition:   Softcover reprint of the original 1st ed. 1988
Dimensions:   Width: 15.50cm , Height: 2.40cm , Length: 23.50cm
Weight:   0.712kg
ISBN:  

9783642882036

ISBN 10:   364288203
Pages:   452
Publication Date:   04 May 2012
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

I The One-Center Point Interaction.- I.1 The One-Center Point Interaction in Three Dimensions.- I.1.1 Basic Properties.- I.1.2 Approximations by Means of Local as well as Nonlocal Scaled Short-Range Interactions.- I.1.3 Convergence of Eigenvalues and Resonances.- I.1.4 Stationary Scattering Theory.- Notes.- I.2 Coulomb Plus One-Center Point Interaction in Three Dimensions.- I.2.1 Basic Properties.- I.2.2 Approximations by Means of Scaled Coulomb-Type Interactions.- I.2.3 Stationary Scattering Theory.- Notes.- I.3 The One-Center ?-Interaction in One Dimension.- I.3.1 Basic Properties.- I.3.2 Approximations by Means of Local Scaled Short-Range Interactions.- I.3.3 Convergence of Eigenvalues and Resonances.- I.3.4 Stationary Scattering Theory.- Notes.- I.4 The One-Center ??-Interaction in One Dimension.- Notes.- I.5 The One-Center Point Interaction in Two Dimensions.- Notes.- II Point Interactions with a Finite Number of Centers.- II.1 Finitely Many Point Interactions in Three Dimensions.- II.1.1 Basic Properties.- II.1.2 Approximations by Means of Local Scaled Short-Range Interactions.- II.1.3 Convergence of Eigenvalues and Resonances.- II.1.4 Multiple Well Problems.- II.1.5 Stationary Scattering Theory.- Notes.- II.2 Finitely Many ?-Interactions in One Dimension.- II.2.1 Basic Properties.- II.2.2 Approximations by Means of Local Scaled Short-Range Interactions.- II.2.3 Convergence of Eigenvalues and Resonances.- II.2.4 Stationary Scattering Theory.- Notes.- II.3 Finitely Many ??-Interactions in One Dimension.- Notes.- II.4 Finitely Many Point Interactions in Two Dimensions.- Notes.- III Point Interactions with Infinitely Many Centers.- III.1 Infinitely Many Point Interactions in Three Dimensions.- III.1.1 Basic Properties.- III.1.2 Approximations by Means of Local Scaled Short-Range Interactions.- III.1.3 Periodic Point Interactions.- III.1.4 Crystals.- III.1.5 Straight Polymers.- III.1.6 Monomolecular Layers.- III.1.7 Bragg Scattering.- III.1.8 Fermi Surfaces.- III.1.9 Crystals with Defects and Impurities.- Notes.- III.2 Infinitely Many ?-Interactions in One Dimension.- III.2.1 Basic Properties.- III.2.2 Approximations by Means of Local Scaled Short-Range Interactions.- III.2.3 Periodic ?-Interactions.- III.2.4 Half-Crystals.- III.2.5 Quasi-periodic ?-Interactions.- III.2.6 Crystals with Defects and Impurity Scattering.- Notes.- III.3 Infinitely Many ??-Interactions in One Dimension.- Notes.- III.4 Infinitely Many Point Interactions in Two Dimensions.- Notes.- III.5 Random Hamiltonians with Point Interactions.- III.5.1 Preliminaries.- III.5.2 Random Point Interactions in Three Dimensions.- III.5.3 Random Point Interactions in One Dimension.- Notes.- Appendices.- A Self-Adjoint Extensions of Symmetric Operators.- B Spectral Properties of Hamiltonians Defined as Quadratic Forms.- C Schrödinger Operators with Interactions Concentrated Around Infinitely Many Centers.- D Boundary Conditions for Schrödinger Operators on (0, ?).- E Time-Dependent Scattering Theory for Point Interactions.- F Dirichlet Forms for Point Interactions.- G Point Interactions and Scales of Hilbert Spaces.- H Nonstandard Analysis and Point Interactions.- H.1 A Very Short Introduction to Nonstandard Analysis.- H.2 Point Interactions Using Nonstandard Analysis.- I Elements of Probability Theory.- J Relativistic Point Interactions in One Dimension.- References.

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