Part I. Getting Started: 1. Notation; Part II. Symmetries and Quantum Field Theory: 2. Poincare Invariance; 3. Spin; 4. Completeness and Normalization; 5. Quantum Mechanics; 6. Unitarity and Partial Waves; 7. Introduction to Field Theory; 8. Complex Scalar Field; 9. Spin 1/2 Particles; 10. Weyl Spinors; 11. Spin 1 Particles; 12. The S Matrix in Field Theory; Part III. Quantum Electrodynamics: 13. QED; 14. Magnetic Moments in QED; 15. The Size of the Proton; Part IV. Discrete Symmetries and their Consequences: 16. Charge Conjugation and Parity; 17. Time Reversal Invariance; 18. CPT Theorem; Part V. Flavor Symmetries: 19. Global Symmetries; 20. Testing Isospin and G Parity; 21. Evidence for New Particles, Quantum Numbers and Interactions; 22. Representation Theory for SU(2); 23. SU(3) Symmetry; 24. Tests of SU(3) Symmetry; Part VI. Spontaneous Symmetry Breaking: 25. Spontaneous Symmetry Breaking; 26. Spontaneous Symmetry Breaking in Hadronic Physics; 27. Current Algebra and the Adler-Weisberger relation; Part VII. Road to the Standard Model: QCD: 28. QCD; 29. Quantizing Non-Abelian Gauge Theory; 30. Renormalization; 31. Deep Inelastic e − N Scattering; 32. LHC Physics and Parton Distribution Functions; Part VIII. Road to the SM: Electroweak Theory: 33. The Electroweak Theory; 34. Electroweak Symmetry Breaking; 35. Electroweak Phenomenon; 36. Deep Inelastic Scattering Revisited; 37. Weak Interactions of Quarks; Part IX. The Standard Model: 38. Three Family Model; 39. Determining VCKM and Quark Masses; 40. CP violating parameters ϵK and ϵ′K; 41. Effective Field Theories; 42. Anomalies; Part X. Neutrino Oscillations: 43. Neutrino Oscillations: Atmospheric; 44. Neutrino Oscillations: Solar; 45. Neutrino Oscillations Continued: Neutrino Mass and Mixing Angles; Part XI. Grand Unification: 46. Grand Unification; 47. Supersymmetry; 48. Superfields; 49. SUSY SU(5); Part XII. Minimal Supersymmetric Standard Model: 50. Supersymmetric Standard Model; 51. Spontaneous SUSY Breaking; 52. MSSM Phenomenology; Part XIII. Second Semester Projects: 53. Suggested Term Projects 1; 54. Suggested Term Projects 2; Part XIV. Appendices: Appendix A: Gell-Mann-Low Theorem; Appendix B: Wick's Theorem; Appendix C: One Loop Calculations in QED; Appendix D: Renormalization in QED; Appendix E: Triangle Anomaly.
Develops a practical understanding of the theoretical concepts required to understand the Standard Model for a two-semester graduate course.
Stuart Raby is a professor of physics at The Ohio State University. He is among the original proponents of the supersymmetric extension of the Standard Model and a pioneer of supersymmetric grand unified theories. His work focuses on the experimental consequences of physics beyond the Standard Model, ranging from collider experiments to proton decay searches, dark matter candidates and questions in cosmology. His first book, Supersymmetric Grand Unified Theories, was published in 2017.
'Stuart Raby's book is an outstanding addition to the suite of
textbooks on the Standard Model of particle physics, and it goes
well beyond, as the title promises. The treatment is pedagogical
and solidly anchored on quantum field theory and symmetry
principles. It weaves seamlessly the fundamental aspects with
phenomenology to offer a broad and deep exploration of one of the
most successful theories of fundamental interactions and its
possible extensions. With excellent suggestions for
independent research projects, this textbook is bound to become a
true classic, and it will be welcomed by students and instructors
alike.' Daniel Boyanovsky, University of Pittsburgh
'This is a fantastic book on the Standard Model and its extensions
that will serve as an excellent resource for graduate students and
researchers. Raby is one of the world's foremost experts on physics
beyond the Standard Model, in particular supersymmetry and Grand
Unified Theories, so the reader is in good hands. His treatment is
very complete, starting from an almost foundational level, but over
the course of over 600 pages he takes us to the cutting edge of
particle physics research, with a clear, mathematically detailed
narrative that never becomes overwhelming. This is a book I will
most certainly be recommending to my own students!' David Miller,
University of Glasgow
'… reading through Stuart Raby's book was a nice reminder of the
importance and elegance of the Standard Model and gave an excellent
insight into the many exciting areas of research beyond it that are
still active today.' Richard Lane, The Observatory
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