Abstract
A common fit is performed to lepton-hadron deep-inelastic scattering and large-${p}_{T}$ direct-photon cross sections, using complete beyond-leading-logarithm QCD expressions. For direct-photon cross sections, theoretical uncertainties coming from the renormalization and factorization schemes are removed by applying the principle of minimal sensitivity. We find that the direct-photon data, especially from the recent fixed-target experiments, strongly constrain the gluon distribution function, whereas the deep-inelastic data determine the quark distribution functions and constrain the value of ${\ensuremath{\Lambda}}_{\mathrm{MS}\mathrm{\ifmmode\bar\else\textasciimacron\fi{}}}$ (MS\ifmmode\bar\else\textasciimacron\fi{} denotes the modified minimal-subtraction scheme). Our analysis is a successful test of perturbative QCD, which provides a coherent and quantitative description of two very different reactions.
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