Inclusive J/ and ηc production in decay at O(αs5) in nonrelativistic QCD factorization

Abstract

We study J/ and ηc inclusive production in decay within the framework of nonrelativistic-QCD (NRQCD) factorization. In the latter case, for which no experimental data exist so far, we also include the hc feed-down contribution. We calculate the short distance coefficients completely through O(αs5). The NRQCD predictions for the branching fraction B( J/+X) via direct production, evaluated with different sets of long-distance matrix elements (LDMEs), all agree with the experimental data in a reasonable range of renormalization scale. Using ηc and hc LDMEs obtained from J/ and c ones via heavy-quark spin symmetry, we find that the bulk of B(ηc+X) via prompt production arises from the cc(3\!S1[8]) Fock state. The experimental study of this decay process would, therefore, provide a particularly clean probe of the color octet mechanism of heavy-quarkonium production.