Discovery prospects for photophobic axion-like particles at a 100 TeV proton--proton collider
Abstract
We study heavy photophobic axion-like particles (ALPs) in the limit of an effectively vanishing diphoton coupling, gaγγ 0, for which diphoton production and decay are suppressed and collider phenomenology is driven by electroweak interactions (aWW, aZγ, aZZ). We perform detector-level searches at a future s= 100 TeV pp collider (SppC/FCC-hh), with an integrated luminosity of L = 20 ab-1. We consider a Zγ and a W+W- decays. For pp jj\,a we include both s-channel electroweak exchange and vector boson fusion (VBF)-like topologies, while the tri-W signature arises from associated production pp W a (via s-channel exchange) followed by a W+W-. We analyze three final states--Zγ jj with Z+-, tri-W (W W W) with same-sign dimuons plus jets, and W+W-jj with opposite-sign, different-flavor dilepton (eμ) plus jets. Among the two WW final states, the VBF-assisted jj\,a( W+W-) channel overtakes the purely s-channel tri-W mode for ma > 1 TeV, reflecting 100~TeV signal/background kinematic shifts beyond naive energy/luminosity rescaling. A boosted-decision-tree (BDT) classifier built from kinematic observables provides the final signal--background separation, using detector-level simulations of signal and high-statistics SM backgrounds. At s=100 TeV and L = 20 ab-1, we present discovery sensitivities to the ALP--W coupling gaWW over ma∈[100,\,7000] GeV. In parallel, we report model-independent discovery thresholds on σ×Br for pp jj\,a with a Zγ and a W+W-, as well as for associated production pp W a with a W+W-....
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