Abstract
We present an investigation of the theoretical uncertainties in parton distribution functions (PDFs) due to missing higher-order corrections in the perturbative predictions used in the fit, and their relationship to the uncertainties in subsequent predictions made using the PDFs. We consider in particular the standard approach of factorization and renormalization scale variation, and derive general results for the consistent application of these at the PDF fit stage. To do this, we use the fact that a PDF fit may be recast in a physical basis, where the PDFs themselves are bypassed entirely, and one instead relates measured observables to predicted ones. In the case of factorization scale variation we find that in various situations there is a high degree of effective correlation between the variation in the fit and in predicted observables. In particular, including such a variation in both cases can lead to an exaggerated theoretical uncertainty. More generally, a careful treatment of this correlation appears mandatory, at least within the standard scale variation paradigm. For the renormalization scale, the situation is less straightforward, but again we highlight the potential for correlations between related processes in the fit and predictions to enter at the same level as between processes in the fit or prediction alone.
Highlights
MRST [7], building on earlier DIS—only fits [8,9,10,11].In these first fits parton distribution functions (PDFs) uncertainties were a few percent at best, and much larger for many PDF flavours and x regions.Soon after this the full calculation of the next-to-next-to leading order (NNLO) splitting functions for the evolution of PDFs were presented in full [12,13] and NNLO extractions of PDFs became possible, as in e.g. [14,15]
PDF uncertainties were always interpreted as being an experimental uncertainty due to the statistical and systematic uncertainties of the data included in the fit
In this paper we have discussed the inclusion of theoretical uncertainties in PDFs due to missing higher-order terms in the pQCD results for the processes entering the fit
Summary
In these first fits PDF uncertainties were a few percent at best, and much larger for many PDF flavours and x regions. C (2019) 79:225 been demonstrated [20], and some agreement on the influence of use of variable flavour as opposed to fixed flavour schemes, and on fitting rather than imposing cuts for higher twist effects has been demonstrated [21,22,23] These omit a potentially significant source of uncertainty, namely due to the fact that fixed-order perturbative predictions are used for the theoretical input to PDF fits. Some of the apparent tension between data sets in a fixed order fit may be due to these missing higher order corrections Such an effect is clearly seen in a LO PDF fit, for example, where the NLO corrections to DIS and Drell Yan cross sections are very different.
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