New physics and tau g-2 using LHC heavy ion collisions

Abstract

The anomalous magnetic moment of the tau lepton aτ = (gτ -2)/2 strikingly evades measurement, but is highly sensitive to new physics such as compositeness or supersymmetry. We propose using ultraperipheral heavy ion collisions at the LHC to probe modified magnetic δ aτ and electric dipole moments δ dτ. We introduce a suite of one electron/muon plus track(s) analyses, leveraging the exceptionally clean photon fusion γγ ττ events to reconstruct both leptonic and hadronic tau decays sensitive to δ aτ, δ dτ. Assuming 10% systematic uncertainties, the current 2 nb-1 lead-lead dataset could already provide constraints of -0.0080 < aτ < 0.0046 at 68% CL. This surpasses 15 year old lepton collider precision by a factor of three while opening novel avenues to new physics.