CP violation /
Saved in:
Author / Creator: | Branco, G. C. (Gustavo C.) |
---|---|
Imprint: | Oxford : Clarendon Press ; New York : Oxford University Press, 1999. |
Description: | xxi, 511 p. : ill. ; 24 cm. |
Language: | English |
Series: | International series of monographs on physics ; 103 International series of monographs on physics (Oxford, England) ; 103. |
Subject: | |
Format: | E-Resource Print Book |
URL for this record: | http://pi.lib.uchicago.edu/1001/cat/bib/4049940 |
Table of Contents:
- I. CP in Quantum Mechanics
- 1. The meaning of the discrete symmetries
- 2. The discrete symmetries in quantum physics
- 3. P, T, and C invariance of QED
- 4. Applications of the discrete symmetries
- 5. Weak and strong phases
- 6. Neutral-meson systems: mixing
- 7. Neutral-meson systems: decays
- 8. The neutral-kaon system
- 9. Heavy neutral-meson systems
- 10. Experimental status of B0-B0 mixing
- II. CP Violation in the Standard Model
- 11. Gauge structure of the standard model
- 12. The fermions in the standard model
- 13. Fundamental properties of the CKM matrix
- 14. Weak-basis invariants and CP violation
- 15. Moduli of the CKM matrix elements
- 16. Parameterizations of the CKM matrix
- 17. e
- 18. Mixing in the B0Q-B0Q systems
- 19. KL?p0??
- 20. Effective Hamiltonians
- 21. e'/e
- III. CP Violation Beyond the Standard Model
- 22. Multi-Higgs-doublet models
- 23. Spontaneous CP violation
- 24. Models with vector-like quarks
- 25. Massive neutrinos and CP violation in the leptonic sector
- 26. The left-right-symmetric model
- 27. The strong CP problem
- IV. CP Violation in B Decays
- 28. Introduction
- 29. Some experimental issues
- 30. The mixing parameters
- 31. Decay amplitudes: diagrammatics
- 32. Decay amplitudes: effective Hamiltonian
- 33. CKM phases and interference CP violation
- 34. Cascade delays
- 35. Some methods to extract a
- 36. Some methods to extract g
- 37. Extracting CKM phases with B0s decays
- 38. Discrete ambiguities
- A. Two notes on CP-transformation phases
- B. Effective Hamiltonian for ? processes
- C. The vacuum-insertion approximation in ? mixing
- D. The effective Hamiltonian for ?
- E. ? mixing
- References
- Index
- I. CP in Quantum Mechanics
- 1. The meaning of the discrete symmetries
- 2. The discrete symmetries in quantum physics
- 3. P, T, and C invariance of QED
- 4. Applications of the discrete symmetries
- 5. Weak and strong phases
- 6. Neutral-meson systems: mixing
- 7. Neutral-meson systems: decays
- 8. The neutral-kaon system
- 9. Heavy neutral-meson systems
- 10. Experimental status of B0-B0 mixing
- II. CP Violation in the Standard Model
- 11. Gauge structure of the standard model
- 12. The fermions in the standard model
- 13. Fundamental properties of the CKM matrix
- 14. Weak-basis invariants and CP violation
- 15. Moduli of the CKM matrix elements
- 16. Parametrizations of the CKM matrix
- 17. e
- 18. Mixing in the B0q - B00q systems
- 19. KLp0ve
- 20. Effective Hamiltonians
- 21. e'/e
- III. CP Violation Beyond the Standard Model
- 22. Multi-Higgs-doublet models
- 23. Spontaneous CP violation
- 24. Models with vector-like quarks
- 25. Massive neutrinos and CP violation in the leptonic sector
- 26. The left-right-symmetric model
- 27. The strong CP problem
- IV. CP Violation in B Decays
- 28. Introduction
- 29. Some experimental issues
- 30. The mixing parameters
- 31. Decay amplitudes: diagrammatics
- 32. Decay amplitudes: effective Hamiltonian
- 33. CKM phases and