Book contents
- Frontmatter
- Dedication
- Contents
- Preface
- Acknowledgements
- List of Abbreviations
- Introduction
- Part I Basics of Gauge Theories
- Part II The StandardModel
- Part III Weak Decays in the StandardModel
- 3 Weak Decays at Tree Level
- 4 Weak Decays at Tree Level
- 5 Short-Distance Structure ofWeak Decays
- 6 Effective Hamiltonians for FCNC Processes
- 7 Nonperturbative Methods in Weak Decays
- 8 Particle-Antiparticle Mixing and CP Violation in the Standard Model
- 9 Rare B and K Decays in the Standard Model
- 10 ε′/ε in the Standard Model
- 11 Charm Flavor Physics
- 12 Status of Flavor Physics within the Standard Model
- Part IV Weak Decays beyond the StandardModel
- Appendix A Dirac Algebra, Spinors, Pauli and Gell-Mann Matrices
- Appendix B Feynman Rules of the Standard Model
- Appendix C Massive Loop Integrals
- Appendix D Numerical Input
- Appendix E Analytic Solutions to SMEFT RG Equations
- References
- Index
11 - Charm Flavor Physics
from Part III - Weak Decays in the StandardModel
Published online by Cambridge University Press: 11 June 2020
- Frontmatter
- Dedication
- Contents
- Preface
- Acknowledgements
- List of Abbreviations
- Introduction
- Part I Basics of Gauge Theories
- Part II The StandardModel
- Part III Weak Decays in the StandardModel
- 3 Weak Decays at Tree Level
- 4 Weak Decays at Tree Level
- 5 Short-Distance Structure ofWeak Decays
- 6 Effective Hamiltonians for FCNC Processes
- 7 Nonperturbative Methods in Weak Decays
- 8 Particle-Antiparticle Mixing and CP Violation in the Standard Model
- 9 Rare B and K Decays in the Standard Model
- 10 ε′/ε in the Standard Model
- 11 Charm Flavor Physics
- 12 Status of Flavor Physics within the Standard Model
- Part IV Weak Decays beyond the StandardModel
- Appendix A Dirac Algebra, Spinors, Pauli and Gell-Mann Matrices
- Appendix B Feynman Rules of the Standard Model
- Appendix C Massive Loop Integrals
- Appendix D Numerical Input
- Appendix E Analytic Solutions to SMEFT RG Equations
- References
- Index
Summary
After the long investigations presented in Chapters 8–11, we will be able to collect various lessons and thereby gain a grand picture of how theSM facesthe data in 2019. In particular it will be important to collect possible deviations from its predictions, which these days carry the name of anomalies. This willshowus that indeed the SM has significant difficulties in describing all the flavor data simultaneously. Not all of these anomalies are still fully convincing because of theoretical and experimental uncertainties, but they give us strong motivations for making an important step toward the identification of N,P which could be responsible for them.
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- Chapter
- Information
- Gauge Theory of Weak Decays , pp. 402 - 409Publisher: Cambridge University PressPrint publication year: 2020