Abstract
Recently, the CMS collaboration has reported a di-tau excess with a local significance of 2.6–3.1sigma where the invariant mass is m_{tau tau } =95–100 GeV. This excess can be interpreted as a light scalar boson that couples to the third generation fermions, particularly top and tau . Based on the simplest model that can account for the CMS di-tau excess, we evaluate experimental sensitivities to the additional light resonance, using the results reported by the ATLAS collaboration. We see that a search for the top-quark associated production of the SM Higgs boson that decays into tau {bar{tau }} sets a strong model-independent limit. We also find that the CP-even scalar interpretation of the light resonance is excluded by the ATLAS results, while the CP-odd interpretation is not.
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