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Limits on Anomalous Trilinear Gauge Couplings in Zgamma Events from ppbar Collisions at sqrt{s} = 1.96 TeV

arXiv:1103.2990 · doi:10.1103/PhysRevLett.107.051802

Abstract

Using \Zg\ candidate events collected by the CDF detector at the Tevatron Colli\der, we search for potential anomalous (non-standard-model) couplings between t\he $Z$ boson and the photon. \Zg\ couplings vanish at tree level and are heavil\y suppressed at higher orders; hence any evidence of couplings indicates new ph\ysics. Measurements are performed using data corresponding to an integrated lum\inosity of 4.9 \invfb\ in the $Z \rightarrow ν\barν$ decay channel and 5.\1 \invfb\ in the \Zll\ ($l=μ, e$) decay channels. The combination of these me\asurements provides the most stringent limits to date on \Zg\ trilinear gauge c\ouplings. Using an energy scale of $Λ= 1.5$\ TeV to allow for a direct c\omparison with previous measurements, we find limits on the CP-conserving param\eters that describe \Zg\ couplings to be $|h_3^{γ,Z}| < 0.022 $ and $|h_4^\{γ,Z}| < 0.0009$. These results are consistent with standard model predict\ions.

Seven pages, one figure. To be submitted to Phys. Rev. Lett