Probing anomalous W-W+γ/Z couplings in the SMEFT with e-e+ W-W+ 4j/-+E channel

Abstract

We investigate anomalous charged triple gauge boson couplings induced by SU(2)L × U(1)Y gauge-invariant dimension-6 operators in the HISZ basis through the processes e-e+ 4j and e-e+ -+ + missing energy at s=250\,GeV with longitudinally polarized beams. The analysis includes three CP-even operators (OWWW, OW, OB) and two CP-odd operators ( OWWW, OW), which parameterize deviations in the W-W+γ/Z vertex. All leading-order contributions are included, including interference between W-W+ production and non-resonant amplitudes. In the e-e+ 4j channel, W-W+ candidates are selected using boosted decision trees. The W-boson charges are reconstructed using a jet-charge observable, and jet flavors from W decays are identified with a dedicated classifier, enabling measurements of vector polarization and correlation asymmetries. In the e-e+ -+ + missing energy channel, events are selected with cuts on lepton transverse momentum and dilepton mass, and the two neutrino momenta are reconstructed using neural-network regression. Combining total cross sections with spin asymmetries allows constraints on anomalous gauge couplings. The fully hadronic channel provides the strongest sensitivity to OB and OW, while the semi-leptonic channel yields tighter limits on OWWW, OW, and OWWW. The fully leptonic channel adds complementary sensitivity. Finally, we derive marginalized limits on all five operators using a Markov Chain Monte Carlo analysis for several choices of systematic uncertainties and integrated luminosities.

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