Impact of the 125 GeV Higgs boson on the singlet fermion dark matter searches at the LHC

Abstract

The search for singlet fermion dark matter at high-energy colliders is commonly analyzed with a singlet scalar mediator, which however violates the standard model (SM) gauge invariance, renormalizability and unitarity. These problems can be cured by introducing a mixing between the singlet scalar s and the SM Higgs boson h. Thus one has to consider two scalar mediators h1 and h2, where h1 is identified as the discovered 125 GeV Higgs boson. As a specific example, we consider the dark matter (DM) search in the t t + ETmiss channel. According to the masses of dark matter and two scalar mediators, we classify the process into four cases. By investigating the total cross sections and differential distributions, we find that the contribution of the 125~GeV Higgs boson h1 cannot be neglected in all cases and can even dominate once h1 is on-shell in dark matter production. Further, we study the impact of h1 on the LHC bounds of dark matter searches in the hadronic and semileptonic channels with the integrated luminosity of 36~fb-1. Finally we make a brief comment that h1 should be also considered in the vector DM search at high-energy colliders.