Journal of High Energy Physics (Apr 2021)
Precision from the diphoton Zh channel at FCC-hh
Abstract
Abstract The future 100 TeV FCC-hh hadron collider will give access to rare but clean final states which are out of reach of the HL-LHC. One such process is the Zh production channel in the v v ¯ / ℓ + ℓ − γγ $$ \left(v\overline{v}/{\mathrm{\ell}}^{+}{\mathrm{\ell}}^{-}\right)\gamma \gamma $$ final states. We study the sensitivity of this channel to the O φq 1 , O φq 3 , O φu $$ {\mathcal{O}}_{\varphi q}^{(1)},\kern0.5em {\mathcal{O}}_{\varphi q}^{(3)},\kern0.5em {\mathcal{O}}_{\varphi u} $$ , and O φd $$ {\mathcal{O}}_{\varphi d} $$ SMEFT operators, which parametrize deviations of the W and Z couplings to quarks, or, equivalently, anomalous trilinear gauge couplings (aTGC). While our analysis shows that good sensitivity is only achievable for O φq 3 $$ {\mathcal{O}}_{\varphi q}^{(3)} $$ , we demonstrate that binning in the Zh rapidity has the potential to improve the reach on O φq 1 $$ {\mathcal{O}}_{\varphi q}^{(1)} $$ . Our estimated bounds are one order of magnitude better than projections at HL-LHC and is better than global fits at future lepton colliders. The sensitivity to O φq 3 $$ {\mathcal{O}}_{\varphi q}^{(3)} $$ is competitive with other channels that could probe the same operator at FCC-hh. Therefore, combining the different diboson channels sizeably improves the bound on O φq 3 $$ {\mathcal{O}}_{\varphi q}^{(3)} $$ , reaching a precision of |δg 1z | ≲ × 10 −4 on the deviations in the ZWW interactions.
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