Discovery prospects for photophobic axion-like particles in the WWjj final state at the High-Luminosity LHC
Abstract
We evaluate discovery prospects for photophobic axion-like particles (ALPs) in the WWjj final state at the High-Luminosity LHC (HL-LHC; s=14 TeV, L=3 ab-1). In the photophobic limit (gaγγ=0), ALPs couple to electroweak gauge bosons and are produced in association with two jets (pp jj a) via both s-channel electroweak exchange and vector-boson-fusion (VBF)-like topologies, followed by a W+W- decay. We target the different-flavour dilepton mode W+W- eμ with two jets and moderate missing transverse momentum. The analysis employs a two-step strategy: an initial preselection that defines the signal-like final state, followed by a multivariate analysis (MVA) trained on dijet and dileptonic-WW kinematics from both the s-channel and VBF-like production mechanisms to separate signal from background; the MVA threshold is optimized independently at each ma. We present 2σ and 5σ discovery sensitivities for the ALP-W coupling gaWW across the 170--4000 GeV mass range. For 260 GeV ma 1500 GeV, the 2σ (5σ) sensitivity is approximately flat around 0.61 (0.76) TeV-1. We also report model-independent discovery thresholds for the fiducial quantity σ(pp jj a)\,Br(a W+W-) over the same mass range to enable reinterpretation for other models. These results indicate that the WWjj topology offers competitive and complementary sensitivity to heavy photophobic ALPs at the HL-LHC.
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