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The same-sign tetralepton signature via the mixing of neutral Higgs bosons and their cascade decays to charged Higgs bosons is a unique signal in the type-Ⅱ seesaw model with the mass spectrum MA0≈MH0>MH+>MH±±.In this study,we investigate this signature at future lepton colliders,such as the ILC,CLIC,and MuC.Direct searches for doubly charged scalar H±±at the LHC have excluded MHg+t<350(870) GeV in the H±±+W±W(±)(l±±)decay mode.Therefore,we choose MA0=400,600,1000,1500 GeV as our benchmark scenarios.Constrained by direct search,H±±+W±W(±)(l±±)d=is the only viable decay mode for Mρ=400 GeV at the √s=1 TeV ILC.With an integrated luminosity L=8 ab-1,the promising region,with approximately 150 signal events,corresponds to a narrow band in the range of 10-4 GeV≤v△≤10-2GeV.Meanwhile,for Mpo=600 GeV at the √s=1.5 TeV CLIC,approximately 10 signal events can be produced with L=2.5 ab-1.For heavier triplet scalars MA0■870 GeV,although the H±± decay mode is allowed,the cascade decays are suppressed.A maximum event number~16 can be obtained at approximately v△~4×104GeV and λ14~0.26 for MA0=1000 GeV with L=5 ab-1 at the √s=3 TeV CLIC.Finally,we find that this signature is not promising for MA0= 1500 GeV at the √s=6 TeV MuC.Based on the benchmark scenarios,we also study the observability of this signature.In the H±±+W±W(±)(l±±)d mode,one can probe MρS 800(1160) GeV at future lepton colliders. 相似文献
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