e+ e- angularity distributions at NNLL accuracy

Abstract

We present predictions for the e+e- event shape angularities at NNLL resummed and O(αs2) matched accuracy and compare them to LEP data at center-of-mass energies Q=91.2 GeV and Q=197 GeV. We perform the resummation within the framework of Soft-Collinear Effective Theory, and make use of recent results for the two-loop angularity soft function. We determine the remaining NNLL and O(αs2) ingredients from a fit to the EVENT2 generator, and implement a shape function with a renormalon-free gap parameter to model non-perturbative effects. Using values of the strong coupling αs(mZ) and the universal non-perturbative shift parameter 1 that are consistent with those obtained in previous fits to the thrust and C-parameter distributions, we find excellent agreement between our predictions and the LEP data for all angularities with a∈[-1,0.5]. This provides a robust test of the predictions of QCD, factorization, and the universal scaling of the non-perturbative shift across different angularities. Promisingly, our results indicate that current degeneracies in the \αs(mZ),1\ parameter space could be be alleviated upon fitting these parameters to experimental data for the angularity distributions.