Heavy quarkonium fragmentation functions from a heavy quark pair. I. S wave

Abstract

A QCD factorization formalism was recently proposed for evaluating heavy quarkonium production at large pT at collider energies. With systematically calculated short-distance partonic hard parts and evolution kernels of fragmentation functions (FFs), the predictive power of this factorization approach relies on our knowledge of a large number of universal FFs at an input factorization scale μ0 2mQ with heavy quark mass mQ. With the large heavy quark mass, the relative motion of the heavy quark pair inside a heavy quarkonium is effectively non-relativistic. We evaluate these universal input FFs using non-relativistic QCD (NRQCD) factorization, and express the large number of FFs in terms of a few universal NRQCD long-distance matrix elements (LDMEs) with perturbatively calculated coefficients. We derive complete contributions to the single-parton FFs at both O(αs) and O(αs2), and the heavy quark pair FFs at O(αs). We present detailed derivation for all contributions involving LDMEs of S-wave NRQCD QQ-states (P-wave contributions in a companion paper). Our results bridge the gap between the QCD factorization formalism and its phenomenological applications.