Quarkonium polarization in low-p T hadro-production: from past data to future opportunities

Abstract

Several fixed-target experiments reported J/ and polarization measurements, as functions of Feynman x (x F) and transverse momentum (p T), in three different polarization frames, using different combinations of beam particles, target nuclei and collision energies. The data form such a diverse and heterogeneous picture that, at first sight, no clear trends can be observed. A more detailed look, however, allows us to discern qualitative physical patterns that inspire and support a simple interpretation: the directly-produced quarkonia result from either gluon-gluon fusion or from quark-antiquark annihilation, with the former mesons being fully longitudinally polarized and the latter being fully transversely polarized. This hypothesis provides a reasonable quantitative description of the J/ and (1S) polarizations measured in the x F 0.5 kinematical domain. We provide predictions that can be experimentally tested, using proton and/or pion beams, and show that improved J/ and (2S) polarization measurements in pion-nucleus collisions can provide significant constraints on the poorly known parton distribution functions of the pion.