Measurement of the Transverse Single-Spin Asymmetries for π0 and Jet-like Events at Forward Rapidities at STAR in p+p Collisions at s = 500 GeV

Abstract

Large transverse single-spin asymmetries (AN) have been observed for forward inclusive hadron production in p+p collisions at various experiments. In the collinear perturbative scattering picture, twist-3 multi-parton correlations can give rise to such an asymmetry. A transversely polarized quark can also give rise to a spin-dependent distribution of its hadron fragments via the higher twist effects or the Collins fragmentation function. The observed AN may involve contributions from both processes. These can be disentangled by studying asymmetries for jets, direct photons and jet-fragments. The STAR Forward Meson Spectrometer (FMS), a Pb-glass electromagnetic calorimeter covering the pseudo-rapidity (η) range 2.6-4.2 and full azimuth, can detect photons, neutral pions and eta mesons. We are measuring AN for π0 and jet-like events reconstructed from photons in the FMS in p+p collisions at s = 500 GeV that were recorded during the 2011 RHIC run. We study AN as a function of the number of observed photons in the FMS, thereby exploring asymmetries for a range of event classes. We further study AN for forward jets and its dependency on forward-midrapidity jet correlation. The current status of the analysis will be discussed.