Two Higgs doublet model fitting and ttbb signal at the ILC
Abstract
One of the most straightforward extensions of the standard model (SM) is having an additional Higgs doublet to the SM, namely the two Higgs doublet models(THDM). In the type-I model, an additional Higgs doublet is introduced that does not couple to any fermion via the Yukawa interaction in the original Lagrangian. Considering various theoretical and phenomenological constraints, we have found the best-fitted parameter set in the type-I model using the minimum 2 method by scanning the model's parameter space. We show that this optimal parameter set can be tested by precisely analyzing the decay processes D+s → τ+ τ, D+ → μ+ μ, and B0 → K* μ+ μ-. Moreover, the decay channels h → γγ and Zγ can be used to distinguish the model from the SM. For a direct search of the model at future colliders, we have proposed an investigation of the e+e- → tt bb process at the ILC to detect the new physics of the model. Considering the initial state radiation correction and applying appropriate background cuts, the calculation result of the scattering cross section shows that it is feasible to observe a clear and unique signal in the tb invariant mass distribution corresponding to the charged Higgs pair creations.
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