A detector-level Monte Carlo analysis in the I(2+1)HDM reports S/B ≈ 9.8% and statistical significance S/√B = 4.93 at 4 ab⁻¹ for a benchmark two-component scalar DM point with soft dimuon invariant mass below m_Z.
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No evidence found for light charged Higgs bosons in ttbar events; upper limits set on B(t to H±b) of 0.07-1.12% at 95% CL for masses 40-160 GeV assuming 100% decay to cs.
In a radiative seesaw model, one-loop contributions from Majorana neutrinos to the ZZh vertex produce CP-conserving anomalous couplings of order 10^{-3} potentially observable at future lepton colliders, while CP-violating effects remain suppressed.
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Soft-Dimuon Signature from Two-Component Scalar Dark Matter at the LHC
A detector-level Monte Carlo analysis in the I(2+1)HDM reports S/B ≈ 9.8% and statistical significance S/√B = 4.93 at 4 ab⁻¹ for a benchmark two-component scalar DM point with soft dimuon invariant mass below m_Z.
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Search for light charged Higgs bosons decaying to charm and strange quarks in $\mathrm{t\bar{t}}$ events in proton-proton collisions at $\sqrt{s}$ = 13 TeV
No evidence found for light charged Higgs bosons in ttbar events; upper limits set on B(t to H±b) of 0.07-1.12% at 95% CL for masses 40-160 GeV assuming 100% decay to cs.
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New physics in the $ZZh$ vertex: One-loop contributions from a radiative seesaw model
In a radiative seesaw model, one-loop contributions from Majorana neutrinos to the ZZh vertex produce CP-conserving anomalous couplings of order 10^{-3} potentially observable at future lepton colliders, while CP-violating effects remain suppressed.