Transverse Quark Spin Effects and the Flavor Dependence of the Boer-Mulders Function

Abstract

The naive time reversal odd (``T-odd'') parton distribution h1, the so-called Boer-Mulders function, for both up (u) and down (d) quarks is considered in the diquark spectator model. While the results of different articles in the literature suggest that the signs of the Boer-Mulders function in semi-inclusive DIS for both flavors u and d are the same and negative, a previous calculation in the diquark-spectator model found that h1(u) and h1(d) have different signs. The flavor dependence is of significance for the analysis of the azimuthal (2φ) asymmetries in unpolarized SIDIS and DY-processes, as well as for the overall physical understanding of the distribution of transversely polarized quarks in unpolarized nucleons. We find substantial differences with previous work. In particular we obtain half and first moments of Boer-Mulders function that are negative over the full range in Bjorken x for both the u- and d- quarks. In conjunction with the Collins function we then predict the (2φ) azimuthal asymmetry for π+ and π- in this framework. We also find that the Sivers u- and d- quark are negative and positive respectively. As a by-product of the formalism, we calculate the chiral-odd but ``T-even'' function h1L, which allows us to present a prediction for the single spin asymmetry AUL(2φ) for a longitudinally polarized target in SIDIS.