Transverse Spin Asymmetries in the pp pπ0 X Process at STAR

Abstract

A significant sample of pp pπ0 X events has been observed at STAR in s=200 GeV transversely polarized pp collisions, where an isolated π0 is detected in the forward pseudorapidity range 2.65<η<3.9 along with the forward-going proton p, which scatters with a near-beam forward pseudorapidity into Roman Pot detectors. The sum of the π0 and the scattered proton energies is consistent with the incident proton energy of 100 GeV, indicating that no further particles are produced in this direction. It is postulated that the forward incident proton may have fluctuated into a p+π0 system, with an angular momentum correlated with the initial proton spin. The backward-going proton interacts with the p+π0 system, which then separates such that the π0 has a transverse momentum of 2 GeV/c and the proton has a transverse momentum of 0.2 GeV/c, while the backward proton shatters into the remaining particles X. Correlations between the π0 and scattered proton will be presented, along with single-spin asymmetries which depend on the azimuthal angles of both the pion and the proton. This is the first time that spin asymmetries have been explored for this process, and a model to explain their azimuthal dependence is needed.