Order-v2 relativistic corrections to heavy-quark fragmentation into P-wave quarkonium states

Abstract

Within the framework of nonrelativistic QCD (NRQCD) factorization,and based on the Collins--Soper operator definition of fragmentation functions, we present a systematic calculation of the fragmentation functions for a heavy quark fragmenting into color-singlet P-wave quarkonium states. After reproducing and confirming the known leading-order results, we further compute the relativistic corrections up to order O(v2). Our analysis applies both to quarkonium systems composed of heavy quarks with the same flavor and to Bc-type mesons formed by heavy quarks of different flavors. Numerical results show that, for all color-singlet P-wave channels, the O(v2) relativistic corrections give sizable negative contributions over most of the momentum-fraction z region. We further compute inclusive cross sections for P-wave quarkonium plus charmed hadrons in e+e- annihilation via the single photon process up to O(v2) by applying our obtained fragmentation functions, and the resulting predictions are consistent with the full fixed-order results in the high-energy region.