Hadron Collider Probes of the Quartic Couplings of Gluons to the Photon and Z Boson

Abstract

We explore the experimental sensitivities of measuring the gg → Z γ process at the LHC to the dimension-8 quartic couplings of gluon pairs to the Z boson and photon, in addition to comparing them with the analogous sensitivities in the gg γ γ process. These processes can both receive contributions from 4 different CP-conserving dimension-8 operators with distinct Lorentz structures that contain a pair of gluon field strengths, Gaμ , and a pair of electroweak SU(2) gauge field strengths, Wiμ , as well as 4 similar operators containing a pair of Gaμ and a pair of U(1) gauge field strengths, Bμ . We calculate the scattering angular distributions for gg → Z γ and the Z f f decay angular distributions for these 4 Lorentz structures, as well as the Standard Model background. We analyze the sensitivity of ATLAS measurements of the Z( +-, , q q)γ final states with integrated luminosities up to 139 fb-1 at s = 13 TeV, showing that they exclude values 2 TeV for the dimension-8 operator scales, and compare the Z γ sensitivity with that of an ATLAS measurement of the γ γ final state. We present combined Z γ and γ γ constraints on the scales of dimension-8 SMEFT operators and γ γ constraints on the nonlinearity scale of the Born-Infeld extension of the Standard Model. We also estimate the sensitivities to dimension-8 operators of experiments at possible future proton-proton colliders with centre-of-mass energies of 25, 50 and 100 TeV, and discuss possible measurements of the Z spin and angular correlations.

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