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The automation of SMEFT-assisted constraints on UV-complete models

Jaco ter Hoeve, Giacomo Magni, Juan Rojo, Alejo N. Rossia, Eleni Vryonidou

2024Journal of High Energy Physics15 citationsDOIOpen Access PDF

Abstract

A bstract The ongoing Effective Field Theory (EFT) program at the LHC and elsewhere is motivated by streamlining the connection between experimental data and UV-complete scenarios of heavy new physics beyond the Standard Model (BSM). This connection is provided by matching relations mapping the Wilson coefficients of the EFT to the couplings and masses of UV-complete models. Building upon recent work on the automation of tree-level and one-loop matching in the SMEFT, we present a novel strategy automating the constraint-setting procedure on the parameter space of general heavy UV-models matched to dimension-six SMEFT operators. A new Mathematica package, match 2 fit , interfaces M atch M aker EFT, which derives the matching relations for a given UV model, and SMEF i T, which provides bounds on the Wilson coefficients by comparing with data. By means of this pipeline and using both tree-level and one-loop matching, we derive bounds on a wide range of single- and multi-particle extensions of the SM from a global dataset composed by LHC and LEP measurements. Whenever possible, we benchmark our results with existing studies. Our framework realises one of the main objectives of the EFT program in particle physics: deploying the SMEFT to bypass the need of directly comparing the predictions of heavy UV models with experimental data.

Topics & Concepts

PhysicsParticle physicsEffective field theoryPhysics beyond the Standard ModelBenchmark (surveying)Matching (statistics)Large Hadron ColliderStandard Model (mathematical formulation)Tree (set theory)AutomationHiggs bosonPipeline (software)Dimension (graph theory)Computer scienceMathematicsPure mathematicsStatisticsGauge (firearms)CombinatoricsProgramming languageHistoryGeographyEngineeringArchaeologyGeodesyMechanical engineeringParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions ResearchQuantum Chromodynamics and Particle Interactions
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