Abstract
We explore the phenomenology of an $SU(2)$-singlet doubly charged scalar at the high and low energy frontier. Such a particle is predicted in different new physics models, like left-right symmetric models or the Zee-Babu model. Nonetheless, since its interactions with Standard Model (SM) leptons are gauge invariant, it can be consistently studied as a UV complete SM extension. Its signatures range from same-sign di-lepton pairs to flavour changing decays of charged leptons to muonium-antimuonium oscillations. In this article, we use a systematic effective-field-theory approach for studying the low-energy observables and comparing them consistently to collider bounds. For this purpose, experimental searches for doubly charged scalars at the Large Hadron Collider are reinterpreted, including large width effects, and projections for exclusion and discovery reaches in the high-luminosity phase are provided. The sensitivities of the future International Linear Collider and Compact Linear Collider for the doubly charged scalar are presented with focus on di-lepton final states and resonant production. Theoretically and phenomenologically motivated benchmark scenarios are considered showing the different impact of low- and high-energy observables. We find that future low- and high-energy experiments display strong complementarity in studying the parameter space of the model.
Highlights
Charged scalars were initially proposed in the context of left-right models [1,2,3] where they can be identified either with components of the associated bidoublet of SUð2ÞL and SUð2ÞR or with elements of the SUð2ÞL;R triplets
We explore the phenomenology of an SUð2Þ-singlet doubly charged scalar at the high and low energy frontier
Charged scalars appear in popular extensions of the Standard Model (SM), mostly motivated by left-right symmetry, neutrino mass generation, nonminimal EWSB mechanisms and grand-unified theories
Summary
Charged scalars were initially proposed in the context of left-right models [1,2,3] where they can be identified either with components of the associated bidoublet of SUð2ÞL and SUð2ÞR or with elements of the SUð2ÞL;R triplets. Limit of a more complicated UV complete theory after the decoupling of the other states In this paper, both options are considered and the phenomenology of a doubly charged scalar that couples to the right-handed charged leptons is explored in detail. The capability of both sub-TeV and (multi-)TeV linear colliders to detect this particle is analyzed in the light of several benchmark scenarios In this case, sizeable width effects are considered and beam polarization, initial-state radiation and beamstrahlung effects are taken into account.
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