Hadron energy spectrum in polarized top quark decays considering the effects of hadron and bottom quark masses

Abstract

We present the analytical expressions for the next-to-leading order corrections to the partial decay width t() → bW+, followed by b→ HbX, for nonzero b-quark mass (mb≠ 0) in the fixed-flavor-number scheme (FFNs). To make the predictions for the energy distribution of outgoing hadrons Hb, as a function of the normalized Hb-energy fraction xH, we apply the general-mass variable-flavor-number scheme (GM-VFNs) in a specific helicity coordinate system where the polarization of top quark is evaluated relative to the b-quark momentum. We also study the effects of gluon fragmentation and finite hadron mass on the hadron energy spectrum so that hadron masses are responsible for the low-xH threshold. In order to describe both the b-quark and the gluon hadronizations in top decays we apply realistic and nonperturbative fragmentation functions extracted through a global fit to e+e- annihilation data from CERN LEP1 and SLAC SLC by relying on their universality and scaling violations.