Correlation between the scaling factor of the yukawa coupling and cross section for the e+ e- → hhff (f≠ t) in type-I 2HD

Abstract

The objective of this study is to correlate the scaling factor of the Standard Model (SM) like Higgs boson and the cross section ratio of the process e+ e- → hhff where f≠ t, normalized to SM predictions in the type I of the Two Higgs Doublet Model. All calculations have been performed at s=500 GeV and 1 ≤ β ≤ 30 for masses mH = mA = mH = 300GeV and mH=300 GeV, mA=mH=500 GeV. The working scenario is by taking without alignment limit, that is sβ-α= 0.98 and sβ-α= 0.99, 0.995, which gives the enhancement in the cross section, particularly a few times greater than the predictions of the SM due to resonant-impacts of the additional heavy neutral Higgs bosons. This shows that enhancement in cross section occurs on leaving the alignment i.e., sβ-α=1, at which all the higgs that couple to vector bosons and fermions have the same values as in SM at tree level. A large value of enhancement factor is obtained at sβ-α= 0.98 compared to sβ-α= 0.99, 0 .995. Furthermore, the decrease in the enhancement factor is observed for the case when mH=300 GeV, mA=mH=500 GeV. The behavior of the scaling factor with β is also studied, which shows that for large values of β, the scaling factor becomes equal to sβ-α. Finally a convincing correlation is achieved by taking into account, the experimental and theoretical constraints e.g, perturbative unitarity, vacuum stability and electroweak oblique parameters.