Inclusive cJ production in decay at O(αs5) in NRQCD factorization

Abstract

Inclusive cJ (J=0,1,2) production from (1S) decay is studied within the framework of nonrelativistic QCD (NRQCD) factorization at leading order in vQ2, which includes the contributions of bb(3S1[1]) cc(3PJ[1])+X and bb(3S1[1]) cc(3S1[8])+X. For both channels, the short-distance coefficients are calculated through O(αs5), which is next-to-leading order for the second one. By fitting to the measured (1S) branching fractions to c1 and c2, we obtain the color-octet long-distance matrix element (LDME) c0(3S1[8]) =(4.040.47-0.34+0.67)×10-3 GeV3, where the first error is experimental and the second one due to the renormalization scale dependence, if we use as input c0(3P0[1])=0.107 GeV5 as obtained via potential-model analysis. Previous LDME sets, extracted from data of prompt cJ hadroproduction, yield theoretical predictions that systematically undershoot or mildly overshoot the experimental values of B( cJ+X).