High-pT LHC constraints on SMEFT operators affecting rare kaon and hyperon decays
Abstract
We consider the constraints on new physics affecting rare kaon and hyperon decay as parametrized by a low energy effective theory that can be obtained from high- pT observables at LHC. To this end, we match the relevant low energy Wilson coefficients onto those in SMEFT at dimension six and compute their contributions to charged dilepton, monolepton, monojets, and VH searches by ATLAS and CMS. Constraints from rare kaon decays are generally more restrictive, with the ones arising from high- pT measurements complementing them along directions in parameter space to which the former are not sensitive. We also illustrate the effect of a high luminosity LHC run in reducing the viable parameter regions.
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