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A bstractThe type-II seesaw mechanism with an isospin-triplet scalar ΔL provides one of the most compelling explanations for the observed smallness of neutrino masses. The triplet contains a doubly-charged component… Click to show full abstract
A bstractThe type-II seesaw mechanism with an isospin-triplet scalar ΔL provides one of the most compelling explanations for the observed smallness of neutrino masses. The triplet contains a doubly-charged component HL±±$$ {H}_{{}^L}^{\pm \pm } $$, which dominantly decays to either same-sign dileptons or to a pair of W bosons, depending on the size of the triplet vacuum expectation value. However, there exists a range of Yukawa couplings fL of the triplet to the charged leptons, wherein a relatively light HL±±$$ {H}_{{}^L}^{\pm \pm } $$ tends to be long-lived, giving rise to distinct displaced-vertex signatures at the high-energy colliders. We find that the displaced vertex signals from the leptonic decays HL±±→ℓα±ℓβ±$$ {H}_{{}^L}^{\pm \pm}\to {\ell}_{\alpha}^{\pm }{\ell}_{{}^{\beta}}^{\pm } $$ could probe a broad parameter space with 10−10 ≲ |fL| ≲ 10−6 and 45.6GeV
Journal Title: Journal of High Energy Physics
Year Published: 2018
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