Asymptotic Diffraction Theory and Nuclear Scattering

All titles

$Asymptotic Diffraction Theory and Nuclear Scattering$

Author:

Roy J. Glauber, Harvard University, Massachusetts
Per Osland, Universitetet i Bergen, Norway

Published:

November 2019

Availability:

Available

Format:

Hardback

ISBN:

9781107104112

$160.00

USD

Hardback

$160.00 USD

eBook

Description

Scattering theory provides a framework for understanding the scattering of waves and particles. This book presents a simple physical picture of diffractive nuclear scattering in terms of semi-classical trajectories, illustrated throughout with examples and case studies. Trajectories in a complex impact parameter plane are discussed, and it stresses the importance of the analytical properties of the phase shift function in this complex impact plane in the asymptotic limit. Several new rainbow phenomena are also discussed and illustrated. Written by Nobel Prize winner Roy J. Glauber, and Per Osland, an expert in the field of particle physics, the book illustrates the transition from quantum to classical scattering, and provides a valuable resource for researchers using scattering theory in nuclear, particle, atomic and molecular physics.

Provides a new description of nuclear scattering, offering physical insight for researchers interested in using scattering theory
Contains numerous case studies and examples to introduce and illustrate concepts
Has wide applications to fields other than nuclear physics, including quantum theory and applied mathematics

Product details

Published: October 2019
Format: Adobe eBook Reader
ISBN: 9781108770477
Length: 0 pages
Contains: 125 b/w illus. 1 table
Availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.

Often bought together

This title is available for institutional purchase via Cambridge Core

Learn more

Related Journals

Also by this Author

Contents

Preface
Acknowledgements
List of abbreviations
Part I. Introduction:
1. Overview and preview
2. Diffraction theory
3. Asymptotic diffraction theory
4. Two simple examples
5. Complex trajectories
6. Scattering from linear structures
Part II. Various Radial Fall-Offs:
7. Gaussian edge
8. Exponential edge
9. Sharper edges
10. Analytic variations
Part III. Composite Phase Functions:
11. Extended charges
12. Coulomb plus nuclear interactions
13. Smooth two-scale functions
14. Two Fermi functions
15. Different singularities
16. Summary
Appendix A. Partial waves and phase shift function
Appendix B. Iteration for stationary points
References
Index.

Courses

Resources

Additional Information

About the authors

Authors

Roy J. Glauber , Harvard University, Massachusetts
Roy J. Glauber was Mallinckrodt Professor of Physics (Emeritus) at Harvard University, Massachusetts, and Adjunct Professor of Optical Sciences at the University of Arizona. In 2005, he received half the Nobel Prize in Physics for his contribution to 'the quantum theory of optical coherence'. He received many awards, including the 1985 Albert A. Michelson Medal from the Franklin Institute, the 1985 Max Born Award from the Optical Society of America, and the 1966 Dannie Heinemann Prize for Mathematical Physics from the American Physical Society. He was elected a Foreign Member of the Royal Society (1997), an Honorary Member of the Optical Society of America (2008) and served on the Advisory Board of the Max Plank Institute of Light.
Per Osland , Universitetet i Bergen, Norway
Per Osland is Professor Emeritus at the Department of Physics and Technology, Universitetet i Bergen, Norway. He is a member of the Royal Norwegian Society of Sciences and Letters and a Fellow of the Swedish Collegium for Advanced study. He has held research positions at CERN, Harvard, NORDITA and DESY, and served as chair of the High Energy and Particle Physics Division Board of the European Physical Society.

Products and services

About us