Recent STAR results and prospects of W−(+) boson production in polarized collisions at RHIC

Abstract

In 2009, the RHIC spin physics program completed the first data taking period of polarized collisions at √s = 500 GeV, accumulating ∼12 pb−1 with ∼39% beam polarization. This opens a new era in the study of the spin-flavor structure of the proton based on the production of W−(+) bosons. W−(+) bosons are produced in ū + d(d̄ + u) collisions and can be detected through their leptonic decays, where only the respective charged lepton is measured. The discrimination of ū + d and d̄ + u quark combinations requires distinguishing the charge sign of high pT electrons and positrons, which in turn requires precise tracking information. At mid-rapidity, STAR relies on the Time Projection Chamber. At forward rapidity, new tracking capabilities will be provided by the Forward GEM Tracker, consisting of six triple-GEM detectors which are under construction. The suppression of QCD background over W boson signal events by several orders of magnitude is accomplished by using the highly segmented STAR Electromagnetic Calorimeters to impose isolation criteria suppressing jet events, and vetoing dijet events based on the measured away side energy. The status of the STAR results on the first measurements of the cross section and single spin asymmetry for W−(+) boson production in polarized collisions will be presented along with a discussion of prospects involving the STAR Forward GEM Tracker.