The anomalous production of multi-lepton and its impact on the measurement of Wh production at the LHC

Abstract

Anomalies in multi-lepton final states at the Large Hadron Collider (LHC) have been reported in Refs.~vonBuddenbrock:2017gvy,vonBuddenbrock:2019ajh. These can be interpreted in terms of the production of a heavy boson, H, decaying into a Standard Model (SM) Higgs boson, h, and a singlet scalar, S, which is treated as a SM Higgs-like boson. This process would naturally affect the measurement of the Wh signal strength at the LHC, where h is produced in association with leptons and di-jets. Here, h would be produced with lower transverse momentum, pTh, compared to SM processes. Corners of the phase-space are fixed according to the model parameters derived in Refs.~vonBuddenbrock:2016rmr,vonBuddenbrock:2017gvy without additional tuning, thus nullifying potential look-else-where effects or selection biases. Provided that no stringent requirements are made on pTh or related observables, the signal strength of Wh is μ(Wh)=2.41 0.37. This corresponds to a deviation from the SM of 3.8σ. This result further strengthens the need to measure with precision the SM Higgs boson couplings in e+e-, and e-p collisions, in addition to pp collisions.