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A Brief Introduction to Dispersion Relations

With Modern Applications

  • Book
  • © 2019

Overview

Authors:
  1. José Antonio Oller

    1. Departamento de Física, Universidad de Murcia, Murcia, Spain

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  • Provides state-of-the-art applications in hadron physics
  • Serves as textbook for specialized courses as well as a self-study guide for non specialist researchers
  • A self-contained introduction to the vast and rich field of dispersion relations

Part of the book series: SpringerBriefs in Physics (SpringerBriefs in Physics)

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Table of contents (17 chapters)

  1. Front Matter

    Pages i-viii
    Download chapter PDF

  2. S and T Matrices. Unitarity

    • José Antonio Oller
    Pages 1-6

  3. Two-Body Scattering. Partial-Wave Expansion

    • José Antonio Oller
    Pages 7-21

  4. Crossing. Crossed-Channel Singularities

    • José Antonio Oller
    Pages 23-29

  5. Important Mathematical Results: Schwarz Reflection Principle, Sugawara–Kanazawa Theorem, and Herglotz Theorem

    • José Antonio Oller
    Pages 31-38

  6. Exact Dispersion Relations in Quantum Mechanics for the Eigenvalues of the Scattering Kernel

    • José Antonio Oller
    Pages 39-42

  7. General Results for Two-Meson Scattering in Partial Waves After Neglecting the Crossed-Channel Cuts. N / D Method

    • José Antonio Oller
    Pages 43-50

  8. Reaching the Unphysical Riemann Sheets. A Nonlinear Integral Equation to Calculate a PWA

    • José Antonio Oller
    Pages 51-55

  9. The Good (\(\sigma \)), The Bad (\(\rho \)) and the Difficult (LHC)

    • José Antonio Oller
    Pages 57-66

  10. SU(3) Analysis of the Subtraction Constants in \(g_i(s)\)

    • José Antonio Oller
    Pages 67-69

  11. Perturbative Introduction of Crossed-Channel Cut Singularities

    • José Antonio Oller
    Pages 71-75

  12. The N / D Method with Perturbative \(\varDelta (p^2)\)

    • José Antonio Oller
    Pages 77-82

  13. The First-Iterated N / D Solution with Perturbative \(\varDelta (p^2)\)

    • José Antonio Oller
    Pages 83-86

  14. Final(Initial)-State Interactions. Unitarity and Analyticity Requirements. Watson Final-State Theorem

    • José Antonio Oller
    Pages 87-91

  15. The Omnès Solution. Reasoned Warnings on the Use of the Omnès Function

    • José Antonio Oller
    Pages 93-102

  16. The Muskhelishvili-Omnès Problem in Coupled-Channel form Factors

    • José Antonio Oller
    Pages 103-109

  17. Near-Threshold Scattering

    • José Antonio Oller
    Pages 111-124

  18. An Example of Application of Analyticity in the Nuclear Medium: The Nuclear Energy Density

    • José Antonio Oller
    Pages 125-134

  19. Back Matter

    Pages 135-141
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Keywords

About this book



This text offers a brief introduction to the dispersion relations as an approach to calculate S-matrix elements, a formalism that allows one to take advantage of the analytical structure of scattering amplitudes following the basic principles of unitarity and causality.

First, the case of two-body scattering is considered and then its contribution to other processes through final-state interactions is discussed. For two-body scattering amplitudes, the general expression for a partial-wave amplitude is derived in the approximation where the crossed channel dynamics is neglected. This is taken as the starting point for many interesting nonperturbative applications, both in the light and heavy quark sector. Subsequently crossed channel dynamics is introduced within the equations for calculating the partial-wave amplitudes. Some applications based on methods that treat crossed-channel dynamics perturbatively are discussed too.

The last part of this introductory treatment is dedicated to the further impact of scattering amplitudes on a variety of processes through final-state interactions. Several possible approaches are discussed such as the Muskhelishvili-Omnes dispersive integral equations and other closed formulae. These different formalisms are then applied in particular to the study of resonances presenting a number of challenging properties. The book ends with a chapter illustrating the use of dispersion relations in the nuclear medium for the evaluation of the energy density in nuclear matter.


Authors and Affiliations

  • Departamento de Física, Universidad de Murcia, Murcia, Spain

    José Antonio Oller

About the author

José Antonio Oller is professor at the department of Physics of the University of Murcia, Spain.As a theoretical nuclear and particle physicist his research interests cover - effective field theories of QCD in vacuum and in a nuclear environment both in the perturbative and no-perturbative regimes
- meson-meson, meson-baryon and nucleon-nucleon production and scattering
- hadron spectroscopy
- heavy quarks
- S-matrix theory
topics on which he has authored more than hundred scientific articles.

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