Nuclear, Particle and Many Body Physics
eBook - ePub

Nuclear, Particle and Many Body Physics

  1. 716 pages
  2. English
  3. ePUB (mobile friendly)
  4. Available on iOS & Android
eBook - ePub

Nuclear, Particle and Many Body Physics

Book details
Table of contents
Citations

About This Book

Nuclear, Particle, and Many Body Physics, Volume I is a collection of scientific papers dedicated to the memory of Amos de-Shalit, a distinguished physicist. The book contains chapters that discuss various studies in the field of nuclear and particle physics. The text covers such topics as chemical binding in classical Coulomb lattices; algebraic treatment of subsidiary conditions in dual resonance models; the complete Schwarzschild solution; the investigation of nucleon-nucleon correlations by means of high-energy scattering; and some aspects on the magnetic-dipole moments of states in near-spherical nuclei. Theoretical, experimental, and nuclear physicists, researchers, and students in the field of physics will find the book invaluable.

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Information

Publisher
Academic Press
Year
2012
ISBN
9780323143035
Topic
Physical Sciences
Subtopic
Nuclear Physics

Table of contents

  1. Cover image
  2. Title page
  3. Table of Contents
  4. Copyright
  5. Dedication
  6. Preface
  7. Eulogy
  8. Recollections of Amos de-Shalit
  9. List of Publications
  10. Chapter 1: Chemical Binding in Classical Coulomb Lattices
  11. Chapter 2: Algebraic Treatment of Subsidiary Conditions in Dual Resonance Models
  12. Chapter 3: Energy Levels of Tm168
  13. Chapter 4: A Shell–Model Analysis of ∧ Binding Energies for the p–Shell Hypernuclei: I. Basic Formulas and Matrix Elements for ΛN and ΛNN Forces
  14. Chapter 5: The Complete Schwarzschild Solution
  15. Chapter 6: Many-Particle Shell Model Calculation of Electromagnetic Transition Rates and Multipole Moments in A = 30–34 Nuclei
  16. Chapter 7: Partial Width Correlations and Common Doorway States
  17. Chapter 8: s1/2 Doublets in Hypernuclear and Nuclear Physics
  18. Chapter 9: Quark Selection Principle. II. Pseudoscalar Meson Form Factor
  19. Chapter 10: Reaction Symmetries for Multiplet Production
  20. Chapter 11: Multiple-Scattering Theory for Pion–Nucleus Scattering Near the 3,3 Resonance
  21. Chapter 12: On the Investigation of Nucleon–Nucleon Correlations by Means of High–Energy Scattering
  22. Chapter 13: Fully Consistent Phase Conventions in Angular Momentum Theory
  23. Chapter 14: Sum Rules, Dynamic Form Factor, and Elementary Excitations in Liquid 4He
  24. Chapter 15: Weak Interactions at High Energies
  25. Chapter 16: Nonstatic Second Order Contribution to the Elastic Electron–Nucleus Scattering
  26. Chapter 17: Elastic Hadronic Processes, Duality and Absorption
  27. Chapter 18: Collective Energies from Momentum– and Angular Momentum–Projected Determinantal Wavefunctions
  28. Chapter 19: An Intrinsically Self-Conjugate Boson Structure: The Symplecton
  29. Chapter 20: Generalized O(2,1) Expansion for Asymptotically Growing Amplitudes
  30. Chapter 21: Properties of Multi-Particle Spaces
  31. Chapter 22: A Soluble Model for a System with Negative Specific Heat
  32. Chapter 23: The Relation Between Classical and Quantum Mechanical Rigid Motion
  33. Chapter 24: High Energy Diffractive Dissociation of Pions and the A1
  34. Chapter 25: Coulomb Excitation of 197Au and a Core-Excitation Analysis
  35. Chapter 26: Axial Vector Nuclear Sum Rules and Exchange Effects
  36. Chapter 27: Deorientation Measurement in 20Ne
  37. Chapter 28: Quantum Mechanics with Constraints
  38. Chapter 29: Asymptotic Evaluation of the Green’s Function for Large Quantum Numbers
  39. Chapter 30: Electric–Quadrupole Isomers in 90Nb and 92Tc
  40. Chapter 31: Some Aspects on the Magnetic-Dipole Moments of States in Near-Spherical Nuclei
  41. Chapter 32: Dips and Spikes in dσ/dt for High Energy Exchange Reactions
  42. Chapter 33: A Qualitative Description of the Spectra 17O and 41Ca
  43. AUTHOR INDEX
  44. SUBJECT INDEX