Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2010-06-30
PoS DIS2010:053,2010
Physics
High Energy Physics
High Energy Physics - Phenomenology
5 pages, 2 figures; to appear in the proceedings of DIS2010
Scientific paper
I consider variations in the definition of a General-Mass Variable Flavour Number Scheme (GM-VFNS) for heavy flavour structure functions, both at next-to-leading order (NLO) and at next-to-next-to leading order (NNLO). I also define a new "optimal" scheme choice improving the smoothness of the transition from one flavour number to the next. At both NLO and NNLO I investigate the variation of the structure function for a fixed set of parton distribution functions (PDFs) and also the change in the distributions when a new MSTW-type global fit to data is performed for each GM-VFNS. At NLO the parton distributions, and predictions using them at hadron colliders, can vary by ~2% from the mean value. Use of the the Zero-Mass Variable Flavour Number Scheme, which is simpler but only an approximation, leads to results a further couple of percent or more outside this range. At NNLO there is far more stability with varying GM-VFNS definition. Typical changes in PDFs and predictions are less than 1%, with most variation at very small x values. This demonstrates that mass-scheme variation is an additional and significant source of uncertainty when considering parton distributions, but like other theoretical uncertainties, it diminishes quickly as higher orders are included.
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