Projected Energy Correlators: Two-Loop Jet Functions and NNLL Resummation

Abstract

We present the next-to-next-to-leading logarithmic (NNLL) collinear resummation of projected N-point energy correlators (ENCs) up to N=6, matched to fixed-order predictions at NLO, in both electron-positron annihilation and Higgs decay to gluons. The key new ingredient is the two-loop jet function for N=4,5,6, which we compute semi-analytically using Integration-by-Parts and differential equations. We further include the leading non-perturbative corrections for ENCs, described by two universal soft matrix elements Ω1q,Ω1g of order Λ QCD, whose evolution is governed by anomalous dimensions for (N-1)-point correlators. The matched distributions are compared with parton-shower simulations from Pythia8 and Herwig7, and we study the sensitivity of both the absolute spectra and their ratios to the two-point energy correlator under variations of αs and Ω1q,1g. Our results show that higher-point projected energy correlators are now under quantitative control at NNLL accuracy, opening the door to future αs extractions with complementary systematics.