A perturbative QCD approach to $\pi^- p \rightarrow D^- \Lambda_c^+$
Abstract
We employ the generalized parton picture to analyze the reaction . Thereby it is assumed that the process amplitude factorizes into one for the perturbatively calculable subprocess and hadronic matrix elements that can be parameterized in terms of generalized parton distributions for the and transitions, respectively. Representing these parton distributions in terms of valence-quark light-cone wave functions for , , and allows us to make numerical predictions for unpolarized differential and integrated cross sections as well as spin observables. In the kinematical region where this approach is supposed to work, i.e. ~GeV and in the forward hemisphere, the resulting cross sections are of the order of nb. This is a finding that could be of interest in view of plans to measure , e.g., at J-PARC or COMPASS.
Cite
@article{arxiv.1612.07123,
title = {A perturbative QCD approach to $\pi^- p \rightarrow D^- \Lambda_c^+$},
author = {S. Kofler and W. Schweiger},
journal= {arXiv preprint arXiv:1612.07123},
year = {2017}
}
Comments
Talk presented by W. Schweiger at "Light Cone 2016", Lisbon, Sep. 5-8, 2016