Parton distributions, d/u and higher twists at high x

Abstract

We extract the ratio of the down (d) and up (u) parton distribution functions (PDF's) from the ratio of deuteron and proton structure function F2(d)/F2(p) measured by NMC. We use corrections for nuclear binding effects in the deuteron, which are extracted from the nuclear dependence of SLAC F2 data. Significant corrections to the d quark distribution in standard PDF's are required, especially at high x. The corrected d/u ratio is in agreement with the QCD prediction of 0.2 at x=1. The predictions for the W asymmetry in hadron colliders using PDF's with the corrected d/u ratio are in much better agreement with recent CDF data at large rapidity. Using the updated d/u ratio and the most recent world average for alphas, we perform a NLO global fit to all DIS data for F2 and R, and estimate the size of the higher twist contributions using both a renormalon model and an empirical model. We find that with the updated value of alphas, the magnitude of the higher twist terms is half the value of previous analysis. With the inclusion of target mass and higher twist corrections, the standard NLO PDF's with the updated d/u ratio describe the SLAC F2 data up to x=1.0. When the analysis is repeated in NNLO, we find that the additional NNLO contributions to R account for most of the higher twist effects extracted in the NLO fit. The analysis in NNLO indicates that the higher twist effects in R, F2 and xF3 (e.g. GLS sum rule) are very small.

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