What question did this study set out to answer?

The aim is to investigate the anomalous magnetic moment of the tau lepton and its sensitivity to new physics.

June 3, 2026Open Access

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

Key Points

The aim is to investigate the anomalous magnetic moment of the tau lepton and its sensitivity to new physics.
Utilized ultraperipheral heavy ion collisions at the LHC
Designed analyses based on signatures of one electron/muon plus tracks
Reconstructed tau decays sensitive to modified magnetic and electric dipole moments.
Provided constraints on tau lepton's magnetic moment $-0.0080<a_τ<0.0046$ at 68% C.L.
Achieved precision surpassing 15-year-old lepton collider results by a factor of 3.
Demonstrated potential for probing new physics through heavy ion collisions.

Abstract

The anomalous magnetic moment of the tau lepton a_τ= (g_τ-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 δa_τ and electric dipole moments δd_τ. We design a suite of analyses with signatures comprising one electron/muon plus track (s), leveraging the exceptionally clean photon fusion γγ→ττ events to reconstruct both leptonic and hadronic tau decays sensitive to δa_τ, δd_τ. Assuming 10% systematic uncertainties, the current 2 nb^-1 lead-lead dataset could already provide constraints of -0. 0080<a_τ<0. 0046 at 68% C. L. This surpasses 15-year-old lepton collider precision by a factor of 3 while opening novel avenues to new physics.

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

Key Points

Abstract

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