Compatibility of the Updated (g-2)μ, (g-2)e and PADME-Favored Couplings with the Preferred Region of ATOMKI X17

Abstract

We re-evaluate the viability of a kinetically mixed dark photon (A) as a solution to the muon anomalous magnetic moment (g-2)μ discrepancy and the ATOMKI nuclear anomalies near 17~MeV, using the final FNAL measurement and the latest theory predictions (BMW21, WP25). For mA = 17~MeV, the allowed kinetic mixing parameter narrows to μ = 7.03(58)×10-4 (WP25). We then directly compare the allowed region for the muon and X17 bands to those preferred by the electron magnetic moment measurements. For the electron, we obtain e = 1.19(15)×10-3 (Cs, 2018) and e = 0.69(15)×10-3 (Rb, 2020), based on two recent measurements of the fine structure constant compared to the most recent experimental value determined using a one-electron quantum cyclotron. This study focuses on the protophobic vector interpretation of X17 and assumes <<l. While a mild tension persists, we identify a narrow overlapping region, 6.8×10-4 9.6×10-4, between recent PADME results, the NA64 exclusion, and within the 2σ preferred coupling region given by the Rb 2020 determination of α. These results provide well-defined targets for future experimental searches and motivate further theoretical refinements, both of which will play a decisive role in assessing the validity of the ATOMKI anomaly claims. Of particular note is the fixed target X17 experiment to be conducted in Hall-B of Thomas Jefferson National Accelerator Facility in Summer of 2026.