Conveners
Parallel VI: G3 Strongly Coupled Theories
- Domenec Espriu Climent (University of Barcelona (ES))
Kimmo Tuominen
(University of Helsinki)
11/09/2014, 14:00
Section G: Strongly Coupled Theories
Development of minimal walking theories and their properties are briefly reviewed. Recent lattice results relevant for these theories are considered and the applications to dynamical electroweak symmetry breaking and related LHC phenomenology are also discussed.
Dr
Marc Gillioz
(CP3-Origins)
11/09/2014, 14:30
Section G: Strongly Coupled Theories
The conformal symmetry plays an important role in quantum field theories, even when it is explicitly broken by a renormalization group flow. The Weyl consistency conditions reflect its presence in the renormalized theory. They provide relations among the beta functions at different loop orders, with a broad range of applications, from the determination of the vacuum stability in the Standard...
Giacomo Cacciapaglia
(IPN Lyon)
11/09/2014, 15:00
Section G: Strongly Coupled Theories
The discovered Higgs boson has properties similar to the ones expected from the standard model, however the possibility that it may be a state composite of fundamental fermions is not excluded. It may in fact be either a heavy resonance of the dynamics, or a light pseudo-Goldstone boson. In truth, the two cases are limits of a more general scenario. I will review the state of the art of the...
Rafael Delgado
(Universidad Complutense de Madrid (UCM))
11/09/2014, 15:30
Section G: Strongly Coupled Theories
The apparent finding of a 125-GeV light Higgs boson closes unitarity of the minimal Standard Model (SM), that is weakly interacting. This is an exceptional feature not generally true if new physics exists beyond the mass gap found at the LHC up to 700 GeV.
Such new physics induces departures of the low-energy dynamics for the minimal electroweak symmetry-breaking sector (EWSBS), with three...
