“School of Particles%20And%20Accelerator”
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| Paper IPM / Particles%20And%20Accelerator / 15902 |
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The hadronization mechanism is described by the fragmentation functions (FFs) which are universal and process-independent quantities. They can be generally determined theoretically or phenomenologically. In the phenomenological approach which is based on the data analysis, we present the FFs of D_s^+ both at leading-order (LO) and next-to-leading order (NLO) and, for the ï¬rst time, at next-to-next-to-leading order (NNLO) in the MS factorization scheme with ï¬ve massless quarks. These functions are determined by ï¬tting all available experimental data of inclusive single D_s^+ meson production in electron-positron annihilation, from the OPAL Collaborations at CERN LEP1. We shall also estimate the uncertainties in these FFs as well as in the corresponding observables. In the theoretical approach, we apply the perturbative FFs formalism based on the Suzuki's model and present our analytical results at LO and NLO perturbative QCD framework. For the ï¬rst time, a comparison between both approaches will be presented in this work. We also apply our new FFs to generate theoretical predictions for the energy distribution of D_s^+ mesons produced through the decay of unpolarized top quarks, to be measured at the CERN LHC.
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