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Is SMEFT enough?

Timothy Cohen, Nathaniel Craig, Xiaochuan Lu, Dave Sutherland

2021Journal of High Energy Physics101 citationsDOIOpen Access PDF

Abstract

A bstract There are two canonical approaches to treating the Standard Model as an Effective Field Theory (EFT): Standard Model EFT (SMEFT), expressed in the electroweak symmetric phase utilizing the Higgs doublet, and Higgs EFT (HEFT), expressed in the broken phase utilizing the physical Higgs boson and an independent set of Goldstone bosons. HEFT encompasses SMEFT, so understanding whether SMEFT is sufficient motivates identifying UV theories that require HEFT as their low energy limit. This distinction is complicated by field redefinitions that obscure the naive differences between the two EFTs. By reformulating the question in a geometric language, we derive concrete criteria that can be used to distinguish SMEFT from HEFT independent of the chosen field basis. We highlight two cases where perturbative new physics must be matched onto HEFT: ( i ) the new particles derive all of their mass from electroweak symmetry breaking, and ( ii ) there are additional sources of electroweak symmetry breaking. Additionally, HEFT has a broader practical application: it can provide a more convergent parametrization when new physics lies near the weak scale. The ubiquity of models requiring HEFT suggests that SMEFT is not enough.

Topics & Concepts

PhysicsElectroweak interactionHiggs bosonParticle physicsEffective field theoryStandard Model (mathematical formulation)Theoretical physicsTechnicolorHiggs fieldSpontaneous symmetry breakingParametrization (atmospheric modeling)Goldstone bosonSymmetry breakingSymmetry (geometry)Physics beyond the Standard ModelHiggs mechanismBosonField (mathematics)Mass generationCP violationElementary particleTachyonic fieldPhase transitionSet (abstract data type)Electroweak scaleParticle physics theoretical and experimental studiesNeutrino Physics ResearchComputational Physics and Python Applications
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