Michael Dine is Professor of Physics at the University of California, Santa Cruz. He is an A. P. Sloan Foundation Fellow, a Fellow of the American Physical Society and a Fellow of the American Academy of Arts and Sciences. Prior to this, Professor Dine was a Research Associate at the Stanford Linear Accelerator Center, a long-term member of the Institute for Advanced Study, and Henry Semat Professor at the City College of the City University of New York.
Inhaltsangabe
Preface to the first edition Preface to the second edition A note on choice of metric Text website Part I. Effective Field Theory: The Standard Model, Supersymmetry, Unification: 1. Before the Standard Model 2. The Standard Model 3. Phenomenology of the Standard Model 4. The Standard Model as an effective field theory 5. Anomalies, instantons and the strong CP problem 6. Grand unification 7. Magnetic monopoles and solitons 8. Technicolor: a first attempt to explain hierarchies Part II. Supersymmetry: 9. Supersymmetry 10. A first look at supersymmetry breaking 11. The Minimal Supersymmetric Standard Model 12. Supersymmetric grand unification 13. Supersymmetric dynamics 14. Dynamical supersymmetry breaking 15. Theories with more than four conserved supercharges 16. More supersymmetric dynamics 17. An introduction to general relativity 18. Cosmology 19. Astroparticle physics and inflation Part III. String Theory: 20. Introduction 21. The bosonic string 22. The superstring 23. The heterotic string 24. Effective actions in ten dimensions 25. Compactification of string theory I. Tori and orbifolds 26. Compactification of string theory II. Calabi-Yau compactifications 27. Dynamics of string theory at weak coupling 28. Beyond weak coupling: non-perturbative string theory 29. Large and warped extra dimensions 30. The landscape: a challenge to the naturalness principle 31. Coda: where are we headed? Part IV. The Appendices: Appendix A. Two-component spinors Appendix B. Goldstone's theorem and the pi mesons Appendix C. Some practice with the path integral in field theory Appendix D. The beta function in supersymmetric Yang-Mills theory References Index.
Preface to the first edition Preface to the second edition A note on choice of metric Text website Part I. Effective Field Theory: The Standard Model, Supersymmetry, Unification: 1. Before the Standard Model 2. The Standard Model 3. Phenomenology of the Standard Model 4. The Standard Model as an effective field theory 5. Anomalies, instantons and the strong CP problem 6. Grand unification 7. Magnetic monopoles and solitons 8. Technicolor: a first attempt to explain hierarchies Part II. Supersymmetry: 9. Supersymmetry 10. A first look at supersymmetry breaking 11. The Minimal Supersymmetric Standard Model 12. Supersymmetric grand unification 13. Supersymmetric dynamics 14. Dynamical supersymmetry breaking 15. Theories with more than four conserved supercharges 16. More supersymmetric dynamics 17. An introduction to general relativity 18. Cosmology 19. Astroparticle physics and inflation Part III. String Theory: 20. Introduction 21. The bosonic string 22. The superstring 23. The heterotic string 24. Effective actions in ten dimensions 25. Compactification of string theory I. Tori and orbifolds 26. Compactification of string theory II. Calabi-Yau compactifications 27. Dynamics of string theory at weak coupling 28. Beyond weak coupling: non-perturbative string theory 29. Large and warped extra dimensions 30. The landscape: a challenge to the naturalness principle 31. Coda: where are we headed? Part IV. The Appendices: Appendix A. Two-component spinors Appendix B. Goldstone's theorem and the pi mesons Appendix C. Some practice with the path integral in field theory Appendix D. The beta function in supersymmetric Yang-Mills theory References Index.
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