Explore the intricacies of ALP effective field theories across scales in this comprehensive 55-minute lecture by Sophie Renner at the Galileo Galilei Institute. Delve into key topics including motivations, ALP forms, and ALP couplings. Examine the electric scale, flavor-changing effects, and meson decays. Investigate the GV scale, general chiral rotation, and covariant derivative. Analyze weak interactions, neutral mode, and SU(2) invariant language. Study Higgs coupling, lepton flavor violating effects, and relevant constraints. Uncover hidden assumptions and additional constraints that shape our understanding of ALP effective field theories. Gain valuable insights into this complex subject through Renner's expert presentation.
Overview
Syllabus
Intro
Motivations
Alp Forms
Alp couplings
Summary
Electric scale
Flavor changing effects
Meson decays
GV scale
General chiral rotation
Covariant derivative
Weak interactions
Neutral mode
Su2 invariant language
Higgs coupling
Lepton flavor violating
What matters
Constraints
Conclusion
Hidden assumption
Another constraint
Taught by
Galileo Galilei Institute
