Litcius/Paper detail

Holographic models of composite Higgs in the Veneziano limit. Part I. Bosonic sector

Daniel Elander, Michele Frigerio, Marc Knecht, Jean-Loïc Kneur

2021Journal of High Energy Physics26 citationsDOIOpen Access PDF

Abstract

A bstract We study strongly-coupled, approximately scale-invariant gauge theories, which develop a mass gap in the infrared. We argue that a large number of fermion flavours is most suitable to provide an ultraviolet completion for the composite Higgs scenario. The holographic approach allows to describe the qualitative features of the non-perturbative dynamics in the Veneziano limit. We introduce new bottom-up holographic models, which incorporate the backreaction of flavour on the geometry, and show that this can correlate the mass gap to the scale of flavour-symmetry breaking. We compute the mass spectrum for the various composite bosonic states, and study its dependence on the scaling dimension of the symmetry-breaking operators, as well as on the number of flavours. The different regions with a light dilaton are critically surveyed. We carefully assess the domain of validity of the holographic approach, and compare it with lattice simulations and the Nambu-Jona-Lasinio model.

Topics & Concepts

PhysicsMass gapHolographyHiggs bosonScalingParticle physicsDilatonTheoretical physicsRenormalization groupFermionLattice (music)Gauge (firearms)Scaling dimensionScale (ratio)Dimension (graph theory)Quantum electrodynamicsGauge theoryConformal mapQuantum mechanicsQuantum field theorySymmetry breakingMass spectrumComposite numberSpectrum (functional analysis)Effective mass (spring–mass system)Physics beyond the Standard ModelUltravioletEffective field theoryParticle physics theoretical and experimental studiesBlack Holes and Theoretical PhysicsQuantum Chromodynamics and Particle Interactions