%0 Electronic Article
%A Gizhko, A.
%A Geiser, A.
%A Moch, S.
%A Abt, I.
%A Behnke, O.
%A Bertolin, A.
%A Blümlein, J.
%A Britzger, D.
%A Brugnera, R.
%A Buniatyan, A.
%A Bussey, P. J.
%A Carlin, R.
%A Cooper-Sarkar, A. M.
%A Daum, K.
%A Dusini, S.
%A Elsen, E.
%A Favart, L.
%A Feltesse, J.
%A Foster, B.
%A Garfagnini, A.
%A Garzelli, M.
%A Gayler, J.
%A Haidt, D.
%A Hladkỳ, J.
%A Jung, A. W.
%A Kapichine, M.
%A Korzhavina, I. A.
%A Levchenko, B. B.
%A Lipka, K.
%A Lisovyi, Misha
%A Longhin, A.
%A Mikocki, S.
%A Naumann, Th.
%A Nowak, Grazyna
%A Paul, E.
%A Plačakytė, R.
%A Rabbertz, K.
%A Schmitt, Sebastian
%A Shcheglova, L. M.
%A Si, Z.
%A Spiesberger, H.
%A Stanco, L.
%A Truöl, P.
%A Tymieniecka, T.
%A Verbytskyi, Andrii
%A Wichmann, K.
%A Wing, M.
%A Żarnecki, A. F.
%A Zenaiev, O.
%A Zhang, Zhengkang
%T Running of the Charm-Quark Mass from HERA Deep-Inelastic Scattering Data
%N DESY-17-048
%M PUBDB-2017-04377
%M DESY-17-048
%M arXiv:1705.08863
%D 2017
%X Combined HERA data on charm production in deep-inelastic scattering have previously been used to determine the charm-quark running mass m<sub>c</sub>(m<sub>c</sub>) in the MSbar renormalisation scheme. Here, the same data are used as a function of the photon virtuality Q<sup>2</sup> to evaluate the charm-quark running mass at different scales to one-loop order, in the context of a next-to-leading order QCD analysis. The scale dependence of the mass is found to be consistent with QCD expectations.
%K mass: energy dependence (autogen)
%K charm: production (autogen)
%K higher-order: 1 (autogen)
%K deep inelastic scattering (autogen)
%K quantum chromodynamics (autogen)
%K DESY HERA Stor (autogen)
%K scale dependence (autogen)
%K renormalization (autogen)
%K photon (autogen)
%F PUB:(DE-HGF)25 ; PUB:(DE-HGF)29
%9 PreprintReport
%U https://bib-pubdb1.desy.de/record/324109