Probing a scalar singlet-triplet extension of the Standard Model via VBF at the Muon Collider

Abstract

In this article, we investigate the Y=0 SU(2) scalar triplet and Z2-odd scalar singlet extension of the Standard Model (SM). Here, the triplet charged Higgs boson decays to ZW, breaking the custodial symmetry at the tree-level, proportional to the triplet vev, while the singlet provides the dark matter (DM) relic. The triplet neutral Higgs (T0) can decay fully invisibly owing to the triplet-singlet portal coupling λst. The other SM Higgs portal couplings λht, λhs are constrained by the Higgs to di-photon observations, and the dark matter relic and direct searches as well as invisible Higgs decay bounds, respectively. For a cleaner signature, we indulge in a futuristic multi-TeV muon collider (MuC) to probe both the triplet scalars (T, T0 ) via vector boson fusion with Forward muon tagging, at the centre-of-mass energies of 3 TeV and 10 TeV. The analysis is comprised of a traditional cut-based approach and a BDT classifier, where the latter is more effective for lower energies. With large missing energy contributions to the final states from combinations of DM mass and λst, The 3 TeV MuC is projected to probe triplet scalar masses of 450 GeV with the BDT classifier. The 10 TeV MuC can pinpoint the custodial symmetry breaking T ZW 3-lepton decay up to 800 GeV of triplet scalar mass from cut-based analysis, with λst as low as 1.5 being adequate.

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