NLO EW corrections to tau pair production via photon fusion in Pb-Pb ultraperipheral collision

Abstract

We study the next-to-leading order (NLO) electroweak (EW) corrections to the γ γ τ+ τ- process in Pb-Pb ultraperipheral collision (UPC). We find that the EW correction δ σEW decreases the total cross section σNLO = σLO + δ σEW by -3\% at Pb-Pb center-of-mass energy sNN=5.02 TeV. The weak correction plays significant role whose contribution is about -4 times of that of QED. The CMS and ATLAS collaborations use the reaction γγ τ+ τ- in Pb-Pb and proton-proton UPC to constrain tau's anomalous magnetic moment aτ. By parameterizing the γ τ τ vertex with two form factors F1,2, the cross section can be written as σaτ = σLO + δ σaτ, where δ σaτ is proportional to aτ. The impact of NLO EW corrections on aτ bounds in Pb-Pb UPC is limited, as the current experimental bounds are loose. We also find that various differential distributions of the two ratios d σNLO/ d σLO and d σaτ/ d σLO have different lineshapes. This work is significant to precisely study the interaction of γ τ τ via γ γ τ+ τ- process.

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