English

$e^+ e^-$ angularity distributions at NNLL$^\prime$ accuracy

High Energy Physics - Phenomenology 2019-01-30 v3 High Energy Physics - Experiment Nuclear Theory

Abstract

We present predictions for the e+ee^{+}e^{-} event shape angularities at NNLL^{\prime} resummed and O(αs2)\mathcal{O}(\alpha_s^{2}) matched accuracy and compare them to LEP data at center-of-mass energies Q=91.2Q=91.2 GeV and Q=197Q=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^{\prime} and O(αs2)\mathcal{O}(\alpha_s^2) 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)\alpha_s(m_Z) and the universal non-perturbative shift parameter Ω1\Omega_1 that are consistent with those obtained in previous fits to the thrust and CC-parameter distributions, we find excellent agreement between our predictions and the LEP data for all angularities with a[1,0.5]a\in[-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),Ω1}\{\alpha_s(m_Z),\Omega_1\} parameter space could be be alleviated upon fitting these parameters to experimental data for the angularity distributions.

Cite

@article{arxiv.1808.07867,
  title  = {$e^+ e^-$ angularity distributions at NNLL$^\prime$ accuracy},
  author = {Guido Bell and Andrew Hornig and Christopher Lee and Jim Talbert},
  journal= {arXiv preprint arXiv:1808.07867},
  year   = {2019}
}

Comments

51 pages + appendices, 18 figures. v2: minor clarifications and corrections, references updated. v3: version published in JHEP

R2 v1 2026-06-23T03:42:14.783Z