A global analysis of Energy-Energy Correlation data: determination of αS and non-perturbative QCD parameters
Abstract
We present a comprehensive global analysis of Energy-Energy Correlation (EEC) data in electron-positron annihilation into hadrons, spanning a wide range of center-of-mass energies (7.7\,\,GeV\!≤\!s\!≤\! 91.2\,\,GeV). In the back-to-back (two-jet) region, we resum to all orders the logarithmically-enhanced contributions up to next-to-next-to-next-to-leading logarithmic (N3LL) accuracy. The resummed results are consistently matched to fixed-order calculations up to O(αS3). Our resummation formalism also incorporates dominant heavy-quark mass effects and models non-perturbative power corrections by means of an analytic dispersive approach. A simultaneous fit yields an excellent description of experimental data across all energies, enabling a precise determination of the strong coupling, αS(mZ2) = 0.119 0.002, as well as the non-perturbative parameters, including those characterizing the Collins--Soper evolution kernel. Our analysis includes, for the first time in a global fit, datasets from the ALEPH and AMY collaborations.
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