Data driven method for predicting the shape of the dijet mass in Z\,h + E T miss analysis

Abstract

We present an analysis of new physics searches in Z\,h with missing energy final states at the Large Hadron Collider considering Z l+ l- (where l = e, μ) and h b b decay modes. For this analysis we consider production of a CP-odd scalar A through gluon-fusion which decay into a heavy CP-even neutral scalar H with Z-boson. Further H decays into a lighter CP-even Higgs boson h in association with dark matter candidate - a source of missing energy. The masses of these scalars are considered as mh = 125 GeV, m = 60 GeV, 2 mh < mH < 2 mt and mA > 2 mt. A data-driven method have been applied to reduce the considerable backgrounds from electroweak processes W+ jets and Z+ jets, in addition with top-pair and single-top production. The di-jet mass distributions have been studied with same- and opposite-flavour lepton selections.