\relax \bibstyle{desy14-xxx} \ifx\hyper@anchor\@undefined \global \let \oldcontentsline\contentsline \gdef \contentsline#1#2#3#4{\oldcontentsline{#1}{#2}{#3}} \global \let \oldnewlabel\newlabel \gdef \newlabel#1#2{\newlabelxx{#1}#2} \gdef \newlabelxx#1#2#3#4#5#6{\oldnewlabel{#1}{{#2}{#3}}} \AtEndDocument{\let \contentsline\oldcontentsline \let \newlabel\oldnewlabel} \else \global \let \hyper@last\relax \fi \citation{HERAIcombi} \citation{Collaboration:2009bp} \citation{Collaboration:2009kv} \citation{Adloff:1999ah} \citation{Adloff:2000qj} \citation{Adloff:2003uh} \citation{H1allhQ2} \citation{H1FL1} \citation{H1FL2} \citation{Breitweg:1997hz} \citation{Breitweg:2000yn} \citation{Breitweg:1998dz} \citation{Chekanov:2001qu} \citation{zeuscc97} \citation{Chekanov:2002ej} \citation{Chekanov:2002zs} \citation{Chekanov:2003yv} \citation{Chekanov:2003vw} \citation{ZEUS2NCe} \citation{ZEUS2CCe} \citation{ZEUS2NCp} \citation{ZEUS2CCp} \citation{ZEUSFL} \citation{HERAverager} \citation{HERAveragerweb} \citation{HERAfitter} \citation{HERAfitterweb} \citation{glazov} \citation{Collaboration:2009bp} \citation{Collaboration:2009kv} \citation{Chekanov:2005nn} \citation{HERAIcombi} \newlabel{sec:int}{{1}{2}{Introduction \label {sec:int}\relax }{section.1}{}} \@writefile{toc}{\contentsline {section}{\numberline {1}Introduction }{2}{section.1}} \citation{kleinriemann} \citation{PhysRevLett.22.156} \@writefile{toc}{\contentsline {section}{\numberline {2}Cross Sections and Parton Distributions}{3}{section.2}} \newlabel{xsecns}{{2}{3}{Cross Sections and Parton Distributions\relax }{section.2}{}} \newlabel{ncsi}{{1}{3}{Cross Sections and Parton Distributions\relax }{equation.1}{}} \newlabel{strf}{{2}{3}{Cross Sections and Parton Distributions\relax }{equation.2}{}} \newlabel{eq:fl}{{3}{3}{Cross Sections and Parton Distributions\relax }{equation.3}{}} \newlabel{ncfu}{{4}{3}{Cross Sections and Parton Distributions\relax }{equation.4}{}} \newlabel{ud}{{5}{3}{Cross Sections and Parton Distributions\relax }{equation.5}{}} \newlabel{valq}{{6}{3}{Cross Sections and Parton Distributions\relax }{equation.6}{}} \newlabel{Rnc}{{7}{3}{Cross Sections and Parton Distributions\relax }{equation.7}{}} \citation{h1det} \citation{h1det2} \citation{spacalc} \citation{ZEUSDETECTOR} \newlabel{ccsi}{{8}{4}{Cross Sections and Parton Distributions\relax }{equation.8}{}} \newlabel{ccstf}{{9}{4}{Cross Sections and Parton Distributions\relax }{equation.9}{}} \newlabel{ccupdo}{{10}{4}{Cross Sections and Parton Distributions\relax }{equation.10}{}} \newlabel{sec:meas}{{3}{4}{Measurements of Inclusive DIS Cross Sections \label {sec:meas}\relax }{section.3}{}} \@writefile{toc}{\contentsline {section}{\numberline {3}Measurements of Inclusive DIS Cross Sections }{4}{section.3}} \@writefile{toc}{\contentsline {subsection}{\numberline {3.1}Detectors}{4}{subsection.3.1}} \newlabel{sec:detectors}{{3.1}{4}{Detectors\relax }{subsection.3.1}{}} \citation{ZEUSDETECTOR} \citation{ZEUSCAL} \citation{ZEUSCTD} \citation{ZEUSMVD} \citation{Breitweg:1997hz} \citation{Breitweg:2000yn} \citation{H1lumi1} \citation{Zlumi1} \citation{Zlumi2} \citation{Zlumi3} \citation{H1allhQ2} \citation{H1lumi2} \citation{yjb} \citation{ysigma} \@writefile{toc}{\contentsline {subsection}{\numberline {3.2}Reconstruction of Kinematics}{6}{subsection.3.2}} \newlabel{diskine}{{3.2}{6}{Reconstruction of Kinematics\relax }{subsection.3.2}{}} \newlabel{eq:emeth}{{11}{6}{Reconstruction of Kinematics\relax }{equation.11}{}} \newlabel{yjb}{{12}{6}{Reconstruction of Kinematics\relax }{equation.12}{}} \newlabel{eq:thh}{{13}{6}{Reconstruction of Kinematics\relax }{equation.13}{}} \citation{Collaboration:2009bp} \citation{Collaboration:2009kv} \citation{ysigma} \citation{Adloff:1999ah} \citation{Breitweg:2000yn} \citation{standa} \citation{hoegerda} \citation{Derrick:1996hn} \citation{Adloff:1997mf} \citation{Breitweg:1998dz} \citation{Collaboration:2009bp} \citation{Collaboration:2009bp} \newlabel{eq:sigma}{{14}{7}{Reconstruction of Kinematics\relax }{equation.14}{}} \newlabel{eq:yh}{{15}{7}{Reconstruction of Kinematics\relax }{equation.15}{}} \newlabel{eq:sigma2}{{16}{7}{Reconstruction of Kinematics\relax }{equation.16}{}} \newlabel{eq:esigma}{{17}{7}{Reconstruction of Kinematics\relax }{equation.17}{}} \newlabel{qxda}{{18}{7}{Reconstruction of Kinematics\relax }{equation.18}{}} \newlabel{eq:ptmeth}{{19}{7}{Reconstruction of Kinematics\relax }{equation.19}{}} \citation{HERAIcombi} \citation{H1FL1} \citation{H1FL2} \citation{ZEUSFL} \citation{HERAverager} \citation{HERAveragerweb} \citation{HERAfitter} \citation{HERAfitterweb} \citation{HERAverager} \citation{HERAveragerweb} \citation{Collaboration:2009bp} \@writefile{toc}{\contentsline {subsection}{\numberline {3.3}Data Samples}{8}{subsection.3.3}} \newlabel{sec:comb}{{4}{8}{Combination of the Measurements\label {sec:comb}\relax }{section.4}{}} \@writefile{toc}{\contentsline {section}{\numberline {4}Combination of the Measurements}{8}{section.4}} \newlabel{sec:comb:averaging}{{4.1}{8}{Averaging Data Points\label {sec:comb:averaging}\relax }{subsection.4.1}{}} \@writefile{toc}{\contentsline {subsection}{\numberline {4.1}Averaging Data Points}{8}{subsection.4.1}} \newlabel{eq:ave1}{{20}{8}{Averaging Data Points\label {sec:comb:averaging}\relax }{equation.20}{}} \citation{Collaboration:2009bp} \citation{HERAIcombi} \citation{fullcorr} \newlabel{eq:tot}{{21}{9}{Averaging Data Points\label {sec:comb:averaging}\relax }{equation.21}{}} \newlabel{eq:ave1tot}{{22}{9}{Averaging Data Points\label {sec:comb:averaging}\relax }{equation.22}{}} \citation{Collaboration:2009bp} \citation{Lastovicka:2002hw} \citation{GolecBiernat:1998js} \@writefile{toc}{\contentsline {subsection}{\numberline {4.2}Common $\boldsymbol {\sqrt {s}}$-Values and $\boldsymbol {(x,Q^2)}$-Grids}{10}{subsection.4.2}} \newlabel{subsec:extrapol}{{4.2}{10}{Common $\boldsymbol {\sqrt {s}}$-Values and $\boldsymbol {(x,Q^2)}$-Grids\relax }{subsection.4.2}{}} \@writefile{toc}{\contentsline {subsection}{\numberline {4.3}Combination Procedure}{10}{subsection.4.3}} \citation{HERAIcombi} \citation{HERAIcombi} \citation{fullcorr} \newlabel{subsubsec:proc_errors}{{4.4}{11}{Procedural Uncertainties \label {subsubsec:proc_errors}\relax }{subsection.4.4}{}} \@writefile{toc}{\contentsline {subsection}{\numberline {4.4}Procedural Uncertainties }{11}{subsection.4.4}} \citation{HERAIcombi} \newlabel{subsec:comb:results}{{5}{12}{Cross Sections\label {subsec:comb:results}\relax }{section.5}{}} \@writefile{toc}{\contentsline {section}{\numberline {5}Cross Sections}{12}{section.5}} \@writefile{toc}{\contentsline {section}{\numberline {6}Conclusions}{13}{section.6}} \@writefile{toc}{\contentsline {section}{\numberline {7}Acknowledgements}{13}{section.7}} \bibdata{desy14-xxx} \citation{Collaboration:2009bp} \citation{Collaboration:2009kv} \citation{Adloff:1999ah} \citation{Adloff:1999ah} \citation{Adloff:2000qj} \citation{Adloff:2000qj} \citation{Adloff:2003uh} \citation{Adloff:2003uh} \citation{Adloff:2003uh} \citation{Breitweg:1997hz} \citation{Breitweg:2000yn} \citation{Breitweg:1998dz} \citation{Chekanov:2001qu} \citation{zeuscc97} \citation{Chekanov:2002ej} \citation{Chekanov:2002zs} \citation{Chekanov:2003yv} \citation{Chekanov:2003vw} \citation{H1allhQ2} \citation{H1allhQ2} \citation{H1allhQ2} \citation{H1allhQ2} \citation{H1FL2} \citation{H1FL2} \citation{ZEUS2NCp} \citation{ZEUS2CCp} \citation{ZEUS2NCe} \citation{ZEUS2CCe} \citation{ZEUSFL} \citation{ZEUSFL} \citation{H1FL1} \citation{H1FL2} \citation{ZEUSFL} \citation{ZEUSFL} \citation{H1FL1} \citation{H1FL2} \citation{ZEUSFL} \citation{ZEUSFL} \citation{H1allhQ2} \citation{H1lumi2} \citation{H1allhQ2} \citation{H1lumi2} \@writefile{lot}{\contentsline {table}{\numberline {1}{\ignorespaces The 41 data sets from H1 and ZEUS used for the combination. The markers $^{*y.5}$ and $^{*y}$ in the collumn ``Data Set''are explained in a footnote in section\nobreakspace {}\ref {subsec:extrapol}. The marker $^1$ for \cite {H1allhQ2} indicates that published cross section were scaled by a factor of 1.018\nobreakspace {}[erratum--\cite {H1lumi2}].}}{14}{table.1}} \newlabel{tab:data}{{1}{14}{Acknowledgements\relax }{table.1}{}} \@writefile{lof}{\contentsline {figure}{\numberline {1}{\ignorespaces The points of the two grids for $\sqrt {s}_{{\rm com},1}=318$\tmspace +\thinmuskip {.1667em}GeV (big open circles) and $\sqrt {s}_{{\rm com},2}=252$\tmspace +\thinmuskip {.1667em}GeV as well as $\sqrt {s}_{{\rm com},3}=225$\tmspace +\thinmuskip {.1667em}GeV (small filled squares) are shown. The latter grid has a finer binning in $x$ in accordance with its special structure in $y$. }}{15}{figure.1}} \newlabel{fig:grid}{{1}{15}{Acknowledgements\relax }{figure.1}{}} \@writefile{lof}{\contentsline {figure}{\numberline {2}{\ignorespaces Distribution of pulls $\rm p$ for the following samples: a) NC $e^+p$ for $Q^2< 3.5$\nobreakspace {}GeV$^2$; b) NC $e^+p$ for $3.5 \le Q^2 < 100$\nobreakspace {}GeV$^2$; c) NC $e^+p$ for $Q^2\ge 100$\nobreakspace {}GeV$^2$; d) NC $e^-p$; e) CC $e^+p$ and f) CC $e^-p$. There are no entries outside the histogram ranges. RMS gives the root mean square of each distribution calculated as $\overline {{\rm p}^2}$. The curves show the results of binned log-likelihood Gaussian fits to the distributions. }}{16}{figure.2}} \newlabel{fig:pulls}{{2}{16}{Acknowledgements\relax }{figure.2}{}} \@writefile{lof}{\contentsline {figure}{\numberline {3}{\ignorespaces HERA combined NC $e^+p$ reduced cross section as a function of $Q^2$ for six selected $x$-bins compared to the separate H1 and ZEUS data which were the input to the averaging procedure. The individual measurements are displaced horizontally for better visibility. Errors bars represent the total uncertainties. }}{17}{figure.3}} \newlabel{fig:quality:NCepp}{{3}{17}{Acknowledgements\relax }{figure.3}{}} \citation{HERAIcombi} \citation{HERAIcombi} \@writefile{lof}{\contentsline {figure}{\numberline {4}{\ignorespaces HERA combined NC $e^+p$ reduced cross section as a function of $Q^2$ for six selected $x$-bins compared to the results from HERA\tmspace +\thinmuskip {.1667em}I alone\nobreakspace {}\cite {HERAIcombi}. The two measurements are displaced horizontally for better visibility. Errors bars represent the total uncertainties. }}{18}{figure.4}} \newlabel{fig:Hera1:NCepp}{{4}{18}{Acknowledgements\relax }{figure.4}{}} \@writefile{lof}{\contentsline {figure}{\numberline {5}{\ignorespaces HERA combined NC $e^-p$ reduced cross section as a function of $Q^2$ for four selected $x$-bins compared to the separate H1 and ZEUS data which were the input to the averaging procedure. The individual measurements are displaced horizontally for better visibility. Errors bars represent the total uncertainties. }}{19}{figure.5}} \newlabel{fig:quality:NCemp}{{5}{19}{Acknowledgements\relax }{figure.5}{}} \citation{HERAIcombi} \citation{HERAIcombi} \@writefile{lof}{\contentsline {figure}{\numberline {6}{\ignorespaces HERA combined NC $e^-p$ reduced cross section as a function of $Q^2$ for four selected $x$-bins compared to the results from HERA\tmspace +\thinmuskip {.1667em}I alone\nobreakspace {}\cite {HERAIcombi}. The two measurements are displaced horizontally for better visibility. Errors bars represent the total uncertainties. }}{20}{figure.6}} \newlabel{fig:Hera1:NCemp}{{6}{20}{Acknowledgements\relax }{figure.6}{}} \@writefile{lof}{\contentsline {figure}{\numberline {7}{\ignorespaces HERA combined NC $e^+p$ and $e^-p$ reduced cross sections as a function of $Q^2$ for four selected $x$-bins. Errors bars represent the total uncertainties. }}{21}{figure.7}} \newlabel{fig:NCemp:NCepp}{{7}{21}{Acknowledgements\relax }{figure.7}{}} \@writefile{lof}{\contentsline {figure}{\numberline {8}{\ignorespaces HERA combined CC $e^+p$ reduced cross section as a function of of $x$ for 10 $Q^2$ bins compared to the separate H1 and ZEUS data which were the input to the averaging procedure. The individual measurements are displaced horizontally for better visibility. Errors bars represent the total uncertainties. }}{22}{figure.8}} \newlabel{fig:quality:CCepp}{{8}{22}{Acknowledgements\relax }{figure.8}{}} \citation{HERAIcombi} \citation{HERAIcombi} \@writefile{lof}{\contentsline {figure}{\numberline {9}{\ignorespaces HERA combined CC $e^+p$ reduced cross section as a function of of $x$ for 10 $Q^2$ bins to the results from HERA\tmspace +\thinmuskip {.1667em}I alone\nobreakspace {}\cite {HERAIcombi}. The individual measurements are displaced horizontally for better visibility. Errors bars represent the total uncertainties. }}{23}{figure.9}} \newlabel{fig:Hera1:CCepp}{{9}{23}{Acknowledgements\relax }{figure.9}{}} \@writefile{lof}{\contentsline {figure}{\numberline {10}{\ignorespaces HERA combined CC $e^-p$ reduced cross section as a function of of $x$ for 10 $Q^2$ bins compared to the separate H1 and ZEUS data which were the input to the averaging procedure. The individual measurements are displaced horizontally for better visibility. Errors bars represent the total uncertainties. }}{24}{figure.10}} \newlabel{fig:quality:CCemp}{{10}{24}{Acknowledgements\relax }{figure.10}{}} \citation{HERAIcombi} \citation{HERAIcombi} \@writefile{lof}{\contentsline {figure}{\numberline {11}{\ignorespaces HERA combined CC $e^-p$ reduced cross section as a function of of $x$ for 10 $Q^2$ bins to the results from HERA\tmspace +\thinmuskip {.1667em}I alone\nobreakspace {}\cite {HERAIcombi}. The individual measurements are displaced horizontally for better visibility. Errors bars represent the total uncertainties. }}{25}{figure.11}} \newlabel{fig:Hera1:CCemp}{{11}{25}{Acknowledgements\relax }{figure.11}{}} \@writefile{lof}{\contentsline {figure}{\numberline {12}{\ignorespaces HERA combined NC $e^+p$ reduced cross section at $E_p=460$\nobreakspace {}GeV running as a function of $x$ for five selected $Q^2$ bins compared to the separate H1 and ZEUS data which were the input to the averaging procedure. The individual measurements are displaced horizontally for better visibility. Errors bars represent the total uncertainties. }}{26}{figure.12}} \newlabel{fig:quality:460}{{12}{26}{Acknowledgements\relax }{figure.12}{}} \@writefile{lof}{\contentsline {figure}{\numberline {13}{\ignorespaces HERA combined NC $e^+p$ reduced cross section at $E_p=575$\nobreakspace {}GeV running as a function of $x$ for five selected $Q^2$ bins compared to the separate H1 and ZEUS data which were the input to the averaging procedure. The individual measurements are displaced horizontally for better visibility. Errors bars represent the total uncertainties. }}{27}{figure.13}} \newlabel{fig:quality:575}{{13}{27}{Acknowledgements\relax }{figure.13}{}}