Search for pair production of additional neutral scalars within the Inert Doublet Model in a final state with two electrons or two muons in proton-proton collisions at s = 13 TeV and 13.6 TeV

Abstract

A first dedicated search for pair production of new scalars predicted by the Inert Doublet Model is performed using proton-proton collisions. Data were collected with the CMS detector at the CERN LHC at s = 13 TeV and 13.6 TeV, corresponding to integrated luminosities of 138 fb-1 and 35 fb-1, respectively. Within this model, four additional scalar bosons (H, A, H+, and H-) are predicted. Through an additional discrete symmetry, the lightest new scalar, H, is stable, rendering it a viable dark matter candidate. These candidates can originate from quark-antiquark annihilation producing an offshell Z boson that decays to a pair of the new scalars. The target final state consists of exactly two opposite-charge same-flavour leptons (electrons or muons), with missing transverse momentum due to the stable neutral scalars, and very little hadronic activity. A parameterised neural network is used to separate the signal from the standard model background. No significant excess of events is observed. Exclusion limits at 95% confidence level are set on the production cross section of the two new neutral scalars, H and A, expressed in terms of their masses, mH and mA, in the mH vs. mA plane. The observed (expected) exclusion region reaches mH = 108 (106) GeV for mH-mA = 78 (76) GeV and at mH = 70 GeV, covers the range of mH-mA = 40-90 (35-90) GeV.