R. S. Thorne
University College London
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Featured researches published by R. S. Thorne.
European Physical Journal C | 2009
A. Martin; W.J. Stirling; R. S. Thorne; G. Watt
AbstractWe present updated leading-order, next-to-leading order and next-to-next-to-leading order parton distribution functions (“MSTW 2008”) determined from global analysis of hard-scattering data within the standard framework of leading-twist fixed-order collinear factorisation in the
European Physical Journal C | 2015
L. A. Harland-Lang; A. Martin; Patrick Motylinski; R. S. Thorne
\overline{\mathrm{MS}}
European Physical Journal C | 2009
A. Martin; W.J. Stirling; R. S. Thorne; G. Watt
scheme. These parton distributions supersede the previously available “MRST” sets and should be used for the first LHC data taking and for the associated theoretical calculations. New data sets fitted include CCFR/NuTeV dimuon cross sections, which constrain the strange-quark and -antiquark distributions, and Tevatron Run II data on inclusive jet production, the lepton charge asymmetry from W decays and the Z rapidity distribution. Uncertainties are propagated from the experimental errors on the fitted data points using a new dynamic procedure for each eigenvector of the covariance matrix. We discuss the major changes compared to previous MRST fits, briefly compare to parton distributions obtained by other fitting groups, and give predictions for the W and Z total cross sections at the Tevatron and LHC.
Journal of Physics G | 2016
Jon Butterworth; Stefano Carrazza; Amanda Cooper-Sarkar; Albert De Roeck; J. Feltesse; Stefano Forte; Jun Gao; Sasha Glazov; J. Huston; Zahari Kassabov; R. McNulty; A. Morsch; Pavel M. Nadolsky; V. Radescu; Juan Rojo; R. S. Thorne
We present LO, NLO and NNLO sets of parton distribution functions (PDFs) of the proton determined from global analyses of the available hard scattering data. These MMHT2014 PDFs supersede the ‘MSTW2008’ parton sets, but they are obtained within the same basic framework. We include a variety of new data sets, from the LHC, updated Tevatron data and the HERA combined H1 and ZEUS data on the total and charm structure functions. We also improve the theoretical framework of the previous analysis. These new PDFs are compared to the ‘MSTW2008’ parton sets. In most cases the PDFs, and the predictions, are within one standard deviation of those of MSTW2008. The major changes are the
European Physical Journal C | 2008
A. Sherstnev; R. S. Thorne
Physics Letters B | 2007
A. Martin; W.J. Stirling; R. S. Thorne; G. Watt
u-d
Journal of High Energy Physics | 2012
G. Watt; R. S. Thorne
Journal of High Energy Physics | 2013
Richard D. Ball; Stefano Carrazza; Luigi Del Debbio; Stefano Forte; Jun Gao; Nathan P. Hartland; J. Huston; Pavel M. Nadolsky; Juan Rojo; Daniel R. Stump; R. S. Thorne; C. P. Yuan
u-d valence quark difference at small
European Physical Journal C | 2000
A. Martin; R.G. Roberts; W.J. Stirling; R. S. Thorne
Journal of Physics G | 2015
Juan Rojo; Alberto Accardi; Richard D. Ball; Amanda Cooper-Sarkar; Albert De Roeck; S. Farry; J. Ferrando; Stefano Forte; Jun Gao; L. A. Harland-Lang; J. Huston; A. Glazov; Maxime Gouzevitch; C. Gwenlan; Katerina Lipka; M. Lisovyi; M. Mangano; Pavel M. Nadolsky; Luca Perrozzi; R. Plačakytė; V. Radescu; Gavin P. Salam; R. S. Thorne
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