Bulletin of the American Physical Society
APS April Meeting 2010
Volume 55, Number 1
Saturday–Tuesday, February 13–16, 2010; Washington, DC
Session A2: Flavor Decomposition of the Parton Distribution Functions |
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Sponsoring Units: DNP Chair: Rolf Ent, Thomas Jefferson National Accelerator Facility Room: Thurgood Marshall East |
Saturday, February 13, 2010 8:30AM - 9:06AM |
A2.00001: Flavor separation at large x Invited Speaker: I will discuss theoretical and phenomenological issues related to parton distribution extraction at large values of the parton fractional momentum $x$ within the framework of global QCD fits. I will review recent results on up and down quarks, gluons and intrinsic heavy flavors, and the main theoretical uncertainties involved. I will highlight theoretical and experimental ways to improve their measurement. [Preview Abstract] |
Saturday, February 13, 2010 9:06AM - 9:42AM |
A2.00002: Flavor decomposition and extraction of quark and gluon polarizations Invited Speaker: Initially experiments accessed the polarized nucleon structure mostly via inclusive deep inelastic lepton-nucleon scattering (DIS) from SLAC to CERN, DESY and JLAB. While carried out with great success, the extracted flavor information is limited to applying iso-spin symmetry to different nucleons and evolution. In semi-inclusive DIS (SIDIS), where one detects an additional hadron in the final state, one becomes sensitive to the flavor of the struck parton via fragmentation functions. At first this became possible for unidentified hadrons in SMC, before HERMES and COMPASS measured the helicity quark distribution functions in great detail. The necessary fragmentation functions were predominantly obtained from LEP experiments, while nowadays also SIDIS data and soon B-factory data will be used. Two aspects cannot be accessed as easily in present-day SIDIS, however. The gluon helicity distribution is not directly accessible in the dominant processes. This function is therefore being measured at RHIC by PHENIX and STAR where high energetic interactions are dominated by gluons. Also here, one makes use of fragmentation functions or measures jet observables. The other aspect still poorly determined is the sea quark helicity distribution, which, apart from ongoing and future SIDIS measurements, is being accessed in a new way in real W boson production. The charge of the W nearly fixes the flavor of the participating partons while the parity violation of the weak interaction fixes their helicity. One can therefore obtain information on the light sea and valence quark distributions at high scale. Initially each experiment extracted polarized, flavor separated quark distribution functions for their own data. Nowadays global analysis frameworks such as most recently DSSV and DSS extract the different parton flavor helicity distribution functions and unpolarized fragmentation functions of the world data. In order to access the transverse spin structure of the nucleon, unpolarized and polarized fragmentation functions are essential. Also here the fragmentation functions allow to extract flavor dependent information. However, so far the data is still limited and several theoretical aspects not completely settled between different processes, such that only early attempts at a global analysis have been made using SIDIS and Belle results. An overview of the different aspects of extracting flavor dependent information of the nucleon structure, its status and future measurements will be presented. [Preview Abstract] |
Saturday, February 13, 2010 9:42AM - 10:18AM |
A2.00003: Transverse momentum and orbital angular momentum of light quarks in the nucleon Invited Speaker: Most of our knowledge of the nucleon inner structure is encoded in parton distribution functions (PDFs). However, the information contained in PDFs is limited to the parton longitudinal momentum. A more complete picture of the nucleon emerges from two other distributions. The transverse momentum dependent parton distributions (TMDs), which not only depend on the longitudinal momentum but also on the transverse momentum of partons inside the nucleon and the generalized parton distributions (GPDs), which can yield to the spatial imaging of the nucleon. Both functions provide novel and intriguing information on hadronic structure. In this talk, the progress of TMDs and GPDs measurements and their impact on our knowledge of the nucleon structure will be reviewed. [Preview Abstract] |
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