Probing axion-like particles coupling to gluons at the LHC

Abstract

Assuming ALPs couple to gluons only, they can be produced via the p p a j process and decay into two jets at the LHC. When the coupling parameter, CG / fa, is small, the lifetime of ALPs can be long enough leading to displaced final state jets. In this paper, we consider the signal including both the prompt and long-lived cases of ALPs by employing a specialized Delphes module to handle displaced jets. Relevant background processes are generated and simulated at the detector level, and multivariate analyses based on machine-learning are performed to discriminate signal and background events and achieve the best sensitivities. Based on the data accumulated for this study, we forecast the expected upper limits on CG/fa for ALP mass ma in the range 5-2300 GeV at 2-, 3- and 5-σ significances at the High Luminosity-LHC with 14 TeV center-of-mass energy and 3 ab-1 integrated luminosity. Vast previously unprobed regions in the parameter space spanned by CG/fa and ma are probed and the best upper limits on CG/fa at 2-σ significance is found to be around 1.0 × 10-2 \,\, TeV-1 for ma 500 GeV. The ALP mass is reconstructed from the kinematics of final state jets and we find that it is measurable in this method when ma is below about 1 TeV at the HL-LHC. The effects of systematic uncertainties and validation of the EFT framework are also checked and discussed.