Illuminating all-hadronic final states with a photon: Exotic decays of the Higgs boson to four bottom quarks in vector boson fusion plus gamma at hadron colliders

We investigate the potential to detect Higgs boson decays to four bottom quarks through a pair of pseudoscalars, a final state that is predicted by many theories beyond the Standard Model. For the first time, the signal sensitivity is evaluated for the final state using the vector boson fusion (VBF) production with and without an associated photon, for the Higgs at mH = 125 GeV, at hadron colliders. The signal significance is 0.5 sigma to 6 sigma, depending on the pseudoscalar mass ma, when setting the Higgs decay branching ratio to unity, using an integrated luminosity of 150 fb-1 at pffisffi = 13 TeV. This corresponds to an upper limit of 0.3, on the Higgs branching ratio to four bottom quarks, with a nonobservation of the decay. We also consider several variations of selection requirements-input variables for the VBF tagging and the kinematic variables for the photon-that could help guide the design of new triggers for the Run-3 period of the LHC and for the HL-LHC.