An insight into the rare Z→ b bγ at the HL-LHC

Abstract

Studies at the Z-pole have played an important role in developing our understanding of the Standard Model (SM). Continuing the explorations in this regime, we consider the possibility of the production of two b-quarks and a photon in proton-proton collisions at the HL-LHC. While such a final state is possible in the SM by means of the process Z→ b b decay with a radiated photon, the focus is on extracting its possible origins due to beyond Standard Model (BSM) physics. The signal topology can be broadly identified as Z→ γ→ b bγ, where can either be a spin-0 or spin-2 state with a mass less than that of the Z boson.The analysis is characterised by two relatively low pT jets that are required to be b-tagged jets and an isolated photon. The study provides a quantitative framework for their identification and highlights the potential challenges associated with this final state. A range of machine learning architectures is employed to demonstrate the stability and reliability of the discriminating variables. This study highlights the importance of the low-pT objects in searches at the HL-LHC, hence the need to pay special attention to their identification and efficiencies.

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