Revisiting the B(*)s-Meson Production at the Hadronic Colliders

Abstract

The production of heavy-flavored hadron at the hadronic colliders provides a challenging opportunity to test the validity of pQCD predictions. There are two mechanisms for the B(*)s hadroproduction, i.e. the gluon-gluon fusion mechanism via the subprocess g+g→ B(*)s+b+s and the extrinsic heavy quark mechanism via the subprocesses g+b B(*)s +s and g+s B(*)s +b, both of which shall have sizable contributions in proper kinematic region. Different from the fixed-flavor-number scheme (FFNS) previously adopted in the literature, we study the B(*)s hadroproduction under the general-mass variable-flavor-number scheme (GM-VFNS), in which we can consistently deal with the double counting problem from the above two mechanisms. Properties for the B(*)s hadroproduction are discussed. To be useful reference, a comparative study of FFNS and GM-VFNS is presented. Both of which can provide reasonable estimations for the B(*)s hadroproduction. At the Tevatron, the difference between these two schemes is small, however such difference is obvious at the LHC. The forthcoming more precise data on LHC shall provide a good chance to check which scheme is more appropriate to deal with the B(*)s-meson production and to further study the heavy quark components in hadrons.