Forward/p+A Update June 2005 Carl Gagliardi, Mike Leitch, Kirill Tuchin

1. Forward/p+A UpdateJune 2005Carl Gagliardi, Mike Leitch, Kirill Tuchin

2. Gluon saturation at small x & shadowing in nuclei Also important for AA initial state RHIC allows study of transition. LHC always saturated (except very high pT and y<-3) • Models: • gluon saturation, CGC • leading twist shadowing (coherence) • mass renorm. (Vitev) • Sudakov suppr. (Kopeliovich) • limiting fragmentation Especially for LHC where always saturated at midrapidity LHC only 1-month/yr shared between pp, pA and AA – earliest pA 2010? • How to distinguish?? • correlations • energy,rapidity dependence • universality polarized and diffractive pA are useful - need theoretical calculations. need hard processes sensitive to gluons • Forward hadrons • need forw. π0 → STAR FMS • hadron PID for |y|>1 compare open & closed Heavy-quarks (c,b) & bound states Direct photons for |y|>1 → PHENIX NCC need cleaner way to get open-c, -b wide kinematic range to understand physics & differentiate models vertex detectors! • Onia – rare processes • PHENIX onia • Need STAR forward J/ψ → ee • separating D & B in single-lepton spectra? • use B → J/ψ X measurement • very high statistics could allow seeing 2 c’s D → Kπ nice but difficult! High Luminosities needed!

3. Antiquark distribution in nucleon and nuclei Also important for understanding gluon distribution in nuclei Flavor structure of parton distribution in nuclei is practically unknown. • Models: • Enhancement of antiquark in nuclei due to meson cloud • Leading twist shadowing of antiquark at low-x • Meson cloud explains the d-bar, u-bar asymmetry in nucleon Spin structure of the nucleon is closely connected to the flavor structure of the nucleon Nuclear shadowing of antiquark sea can be measured at RHIC in pA need hard process sensitive to antiquarks Polarized Drell-Yan can probe seaquark polarization complementary to W-production Forward-tagging in p-p Drell-Yan can probe the pion cloud directly Drell-Yan process in pA and pp is ideal for probing antiquarks Roman pot and forward neutron tagging are required High Luminosities needed!

4. Summary The physics program with tagged forward protons with STAR at RHIC I and extending into RHIC II will: • Study elastic scattering and its spin dependence in unexplored t and s range. • Study the structure of color singlet exchange in the non-perturbative regime of QCD. • Search for diffractive production of light and massive systems in double Pomeron exchange process - glueballs. • Search for an Odderon - an eigenstate of CGC. • At RHIC II one would take advantage of smaller TPC, include more coverage to better characterize rapidity gaps. More guidance from theory is needed - particularly for new phenomena. These studies will add to our understanding of QCD in the non-perturbative regime where calculations are not easy and one has to be guided by measurements.

5. CERN p+Nucleus Workshop • p+A at the LHC is still officially an upgrade • First year that LHC might run p+Pb: 2010 • Possible “target” luminosity: 1029 cm-2s-1 • Can’t use the constant frequency solution that worked well at RHIC • “Company line”: no need for p+p reference. Will come from interpolation between Tevatron and 14 TeV • Probably okay for “really hard” processes • May be problematic for measurements focused on small-x saturation effects • If the accelerator turn-on goes well, even getting the 14 TeV reference data may be a challenge