Abstract
The anomalous magnetic moment of the tau lepton $a_\tau = (g_\tau -2)/2$ 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 $\delta a_\tau$ and electric dipole moments $\delta d_\tau$. We introduce a suite of one electron/muon plus track(s) analyses, leveraging the exceptionally clean photon fusion $\gamma\gamma \to \tau\tau$ events to reconstruct both leptonic and hadronic tau decays sensitive to $\delta a_\tau, \delta d_\tau$. Assuming 10% systematic uncertainties, the current 2 nb$^{-1}$ lead-lead dataset could already provide constraints of $-0.0080 < a_\tau < 0.0046$ at 68% CL. This surpasses 15 year old lepton collider precision by a factor of three while opening novel avenues to new physics.
Highlights
Precision measurements of electromagnetic couplings are foundational tests of QED and powerful probes of beyond the Standard Model (BSM) physics
With the DELPHES simulation, the requirement that the nonlepton track is not identified as a lepton allows for a sufficiently strong suppression of the dielectron/dimuon background, but for the analysis of experimental data, additional lepton veto selections may be considered to increase the background rejection at a modest cost to signal efficiency
We estimate the sensitivity of our analyses to modified tau moments δaτ; δdτ
Summary
Precision measurements of electromagnetic couplings are foundational tests of QED and powerful probes of beyond the Standard Model (BSM) physics. Our strategy probes tau electric dipole moments dτ induced by CP violating new physics. This opens key new directions in the heavy ion program amid reviving interest in photon collisions [52,53,54] for light-bylight scattering [55,56,57,58], standard candle processes [59,60,61,62,63], and BSM dynamics [64,65,66,67,68,69,70,71,72,73,74]
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