Nuclear, Particle and Many Body Physics
eBook - PDF

Nuclear, Particle and Many Body Physics

  1. 954 pages
  2. English
  3. PDF
  4. Available on iOS & Android
eBook - PDF

Nuclear, Particle and Many Body Physics

About this book

Nuclear, Particle and Many Body Physics, Volume II, is the second of two volumes dedicated to the memory of physicist Amos de-Shalit. The contributions in this volume are a testament to the respect he earned as a physicist and of the warm and rich affection he commanded as a personal friend. The book contains 41 chapters and begins with a study on the renormalization of rational Lagrangians. Separate chapters cover the scattering of high energy protons by light nuclei; approximation of the dynamics of proton-neutron systems; the scattering amplitude for the Gaussian potential; Coulomb excitation of decaying states; the and optical potential for pions propagating in nuclear matter. Subsequent chapters deal with topics such as the elastic scattering of protons from analog resonances; internal Compton scattering in a muonic atom with an excited nucleus; and a formal theory of finite nuclear systems. The book also includes a eulogy and recollections of Amos de-Shalit.

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Yes, you can access Nuclear, Particle and Many Body Physics by Philip M. Morse, Bernard T. Feld, Herman Feshbach, Philip M. Morse,Bernard T. Feld,Herman Feshbach in PDF and/or ePUB format, as well as other popular books in Physical Sciences & Nuclear Physics. We have over one million books available in our catalogue for you to explore.

Information

Publisher
Academic Press
Year
2013
Print ISBN
9780125082020
eBook ISBN
9781483259581
Topic
Physical Sciences
Subtopic
Nuclear Physics

Table of contents

  1. Front Cover
  2. Nuclear, Particle and Many Body Physics
  3. Copyright Page
  4. Table of Contents
  5. Preface
  6. Eulogy
  7. Recollections of Amos de-Shalit
  8. List of Publications
  9. Chapter 1. Renormalization of Rational Lagrangians
  10. Chapter 2. On High-Energy Scattering by Nuclei—II
  11. Chapter 3. The206Pb(t, p)208Pb and 210Pb(p, t)208Pb Reactions at 20 MeV
  12. Chapter 4. The Roton Model of Quartets in Nuclei
  13. Chapter 5. Distribution Methods for Nuclear Energies, Level Densities, and Excitation Strengths
  14. Chapter 6. Exponentially Small Scattering Amplitude in High Energy Potential Scattering
  15. Chapter 7. Coulomb Excitation of Particle-Unstable States
  16. Chapter 8. Pions in Nuclear Matter—An Approach to the Pion–Nucleus Optical Potential
  17. Chapter 9. Resonant Elastic Scattering of Protons from Analog and Compound States
  18. Chapter 10. Group Theory and Second Quantization for Nonorthogonal Orbitals
  19. Chapter 11. Finite Energy Sum Rules for Forward Compton Scattering
  20. Chapter 12. Intensity Rules for Partial Widths of Deformed Analog Resonances
  21. Chapter 13. Remarks on Muonic Atoms of Nuclear Isomers
  22. Chapter 14. Operator Products at Almost Light Like Distances
  23. Chapter 15. Formal Theory of Finite Nuclear Systems
  24. Chapter 16. An Apparatus of the NBC Type and the Physics Results Obtained
  25. Chapter 17. Factorization in High Energy Hadron Collisions
  26. Chapter 18. Analysis of Separation Energies
  27. Chapter 19. Semiclassical Theory of a Nuclear Josephson Effect in Reactions between Heavy Ions
  28. Chapter 20. Coherent Production of Pions
  29. Chapter 21. Elementary Algebra of the Euclidean Group, with Application to Magnetic Charge Quantization
  30. Chapter 22. Measurements and Models of the Level Structure of 42Sc
  31. Chapter 23. Partons and Their Applications at High Energies
  32. Chapter 24. Core Polarization and the Effective Interaction between Nucleons in a Nucleus
  33. Chapter 25. Composite Models of the Baryons and Electromagnetic Decays
  34. Chapter 26. Hindrance Phenomena in Unique First- and Third-Forbidden ß-Decay
  35. Chapter 27. Study of the 1.704 MeV 1+ State in 206Pb
  36. Chapter 28. Transfer Reactions Below the Coulomb Barrier
  37. Chapter 29. Validity of the Sopkovich Approximation
  38. Chapter 30. Strangeness Analog Resonances
  39. Chapter 31. Properties of the Breaking of Hadronic Internal Symmetry
  40. Chapter 32. Two Body Contribution to the Effective Radius Operator
  41. Chapter 33. A Discussion of the Role of Dispersion Effects on Isotopic Charge Density Variations
  42. Chapter 34. The Spectra of Near-Magic Odd-Odd Nuclei and the Effective Interaction
  43. Chapter 35. Investigation of the 3He(d, p)4He Reaction with Polarized Beam and Target at 430 keV
  44. Chapter 36. Neutron Starquakes and Pulsar Speedup
  45. Chapter 37. An Algebra of Currents and Gradient Terms
  46. Chapter 38. Scaling Properties in Inelastic Electron Scattering with a Fixed Final Multiplicity
  47. Chapter 39. Fresnel Diffraction in Deuterium
  48. Chapter 40. On the Diffraction Model of Transfer Reactions
  49. Chapter 41. Evidence for Quartet Structures in the Nickel Region
  50. AUTHOR INDEX
  51. SUBJECT INDEX