This 2001 book examines the motivation for electron scattering and develops the theoretical analysis of the process. It discusses our understanding of the underlying structure of nuclei and nucleons, and summarizes experimental electron scattering capabilities. This title has been reissued as an Open Access publication on Cambridge Core.
This 2001 book examines the motivation for electron scattering and develops the theoretical analysis of the process. It discusses our understanding of the underlying structure of nuclei and nucleons, and summarizes experimental electron scattering capabilities. This title has been reissued as an Open Access publication on Cambridge Core.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
Produktdetails
Cambridge Monographs on Particle Physics, Nuclear Physics and Cosmology
John Dirk Walecka was Professor of Physics at Stanford University from 1966 to 1987 and then went on to become Scientific Director of the Continuous Electron Beam Accelerator Facility (CEBAF) from 1986 to 1992. He is now Governor's Distinguished CEBAF Professor of Physics, Emeritus at the College of William and Mary. He has published numerous papers on nuclear physics, and in 1996 the American Physical Society recognized his work with the award of the Bonner Prize.
Inhaltsangabe
Part I. Introduction: 1. Motivation 2. Pictures of the nucleus 3. Some optics 4. Why electron scattering? 5. Target response surfaces 6. Why coincidence experiments? 7. Units and conventions Part II. General Analysis: 8. Electromagnetic interactions 9. Multipole analysis 10. Dirac equation 11. Covariant analysis 12. Excitation of discrete states in (e, e*) 13. Coincidence experiments (e, e* X) 14. Deep inelastic scattering from the nucleon 15. Polarization in deep inelastic scattering 16. Parity violation in inclusive electron scattering Part III. Quantum Electrodynamics: 17. Basic elements 18. Radiative corrections Part IV. Selected Examples: 19. Basic nuclear structure 20. Some applications 21. A relativistic model of the nucleus 22. Elastic scattering 23. Quasielastic scattering 24. The quark model 25. Quantum chromodynamics 26. The standard model 27. Parity violation 28. Excitation of nucleon resonances Part V. Future Directions: 29. TJNAF(CEBAF) 30. Other facilities 31. Future directions Appendixes.
Part I. Introduction: 1. Motivation 2. Pictures of the nucleus 3. Some optics 4. Why electron scattering? 5. Target response surfaces 6. Why coincidence experiments? 7. Units and conventions Part II. General Analysis: 8. Electromagnetic interactions 9. Multipole analysis 10. Dirac equation 11. Covariant analysis 12. Excitation of discrete states in (e, e*) 13. Coincidence experiments (e, e* X) 14. Deep inelastic scattering from the nucleon 15. Polarization in deep inelastic scattering 16. Parity violation in inclusive electron scattering Part III. Quantum Electrodynamics: 17. Basic elements 18. Radiative corrections Part IV. Selected Examples: 19. Basic nuclear structure 20. Some applications 21. A relativistic model of the nucleus 22. Elastic scattering 23. Quasielastic scattering 24. The quark model 25. Quantum chromodynamics 26. The standard model 27. Parity violation 28. Excitation of nucleon resonances Part V. Future Directions: 29. TJNAF(CEBAF) 30. Other facilities 31. Future directions Appendixes.
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