Can the FCC-hh prove the B-L gauge symmetry?
Abstract
We present a phenomenological study of the discovery potential at the FCC-hh for a new heavy neutral vector boson, Z', predicted by the U(1)B-L gauge symmetry. Focusing on the parameter space currently not excluded by Large Hadron Collider data, we analyze the dilepton production channel p p → Z → l+ l- (l = e, μ) at a center-of-mass energy of s = 100 TeV. Full Monte Carlo simulations was performed for different (MZ', gB-L) BSM scenarios and relevant Standard Model backgrounds (including irreducible Drell-Yan, diboson, single top-quark and top-quark pair productions) identifying optimal kinematic and angular selection cuts to guide future searches for this type resonance. We estimate the FCC-hh reach for an integrated luminosity of Lint = 3~ab-1. Our results demonstrate that the FCC-hh can exclude Z' masses up to 40 TeV with 95\% C.L. for couplings of gB-L 1, and up to 15 TeV for gB-L 0.1. We find the kinematic and angular cuts that optimize the signal over background ratio and achieve a 5σ signal up to Z' masses of 30 TeV. These findings highlight the FCC-hh potential to uncover new physics signals in the high-mass regime.
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