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Exploring anomalous couplings in Higgs boson pair production through shape analysis

M. Capozi, G. Heinrich

2020Journal of High Energy Physics35 citationsDOIOpen Access PDF

Abstract

A bstract We classify shapes of Higgs boson pair invariant mass distributions m hh , calculated at NLO with full top quark mass dependence, and visualise how distinct classes of shapes relate to the underlying coupling parameter space. Our study is based on a five-dimensional parameter space relevant for Higgs boson pair production in a non-linear Effective Field Theory framework. We use two approaches: an analysis based on predefined shape types and a classification into shape clusters based on unsupervised learning. We find that our method based on unsupervised learning is able to capture shape features very well and therefore allows a more detailed study of the impact of anomalous couplings on the m hh shape compared to more conventional approaches to a shape analysis.

Topics & Concepts

PhysicsHiggs bosonShape analysis (program analysis)Parameter spaceParticle physicsBosonPair productionInvariant (physics)Coupling (piping)Top quarkInvariant massField (mathematics)Theoretical physicsHiggs fieldPhysics beyond the Standard ModelSpace (punctuation)Effective field theoryStandard Model (mathematical formulation)Elementary particleQuarkShape parameterVector bosonActive shape modelScalar bosonHiggs mechanismProduction (economics)Extra dimensionsParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsHigh-Energy Particle Collisions Research
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