%================================================================ % LaTeX file with preferred layout for the contributed papers to % the ICHEP Conference 98 in Vancouver % process with: latex hep98.tex % dvips -D600 hep98 %================================================================ \documentclass[12pt]{article} \usepackage{epsfig} \usepackage{amsmath} \usepackage{hhline} \usepackage{amssymb} \usepackage{times} \usepackage{color} \renewcommand{\topfraction}{1.0} \renewcommand{\bottomfraction}{1.0} \renewcommand{\textfraction}{0.0} \newlength{\dinwidth} \newlength{\dinmargin} \setlength{\dinwidth}{21.0cm} \textheight23.5cm \textwidth16.0cm \setlength{\dinmargin}{\dinwidth} \setlength{\unitlength}{1mm} \addtolength{\dinmargin}{-\textwidth} \setlength{\dinmargin}{0.5\dinmargin} \oddsidemargin -1.0in \addtolength{\oddsidemargin}{\dinmargin} \setlength{\evensidemargin}{\oddsidemargin} \setlength{\marginparwidth}{0.9\dinmargin} \marginparsep 8pt \marginparpush 5pt \topmargin -42pt \headheight 12pt \headsep 30pt \footskip 24pt \parskip 3mm plus 2mm minus 2mm \setlength{\parindent}{0.0cm} \newcommand{\picob}{\mbox{{\rm ~pb}}} \newcommand{\QQ} {\mbox{${Q^2}$}} %===============================title page============================= % Some useful tex commands % \def\GeV{\hbox{$\;\hbox{\rm GeV}$}} \def\MeV{\hbox{$\;\hbox{\rm MeV}$}} \def\TeV{\hbox{$\;\hbox{\rm TeV}$}} \newcommand{\pb}{\rm pb} \newcommand{\cm}{\rm cm} \newcommand{\hdick}{\noalign{\hrule height1.4pt}} \begin{document} \pagestyle{empty} \begin{titlepage} \noindent \begin{center} %{\it {\large version of \today}} \\[.3em] \begin{small} \begin{tabular}{llrr} %Submitted to & \multicolumn{3}{r}{\footnotesize Electronic Access: {\it http://www-h1.desy.de/h1/www/publications/conf/conf\_list.html}} \\[.2em] \hline %Submitted to & \multicolumn{3}{r}{\footnotesize {\it www-h1.desy.de/h1/www/publications/conf/conf\_list.html}} \\[.2em] \hline Submitted to & & & \epsfig{file=/h1/www/images/H1logo_bw_small.epsi,width=2.cm} \\[.2em] \hline %\epsfig{file=H1logo_bw_small.epsi,width=2.cm} \\[.2em] \hline \multicolumn{4}{l}{{\bf XIIIth International Workshop on Deep Inelastic Scattering, DIS05}, April,~2005,~Madison} \\ %zz & Abstract: & {\bf xxx,xxx} &\\ %zz & Parallel Session & {\bf x,x} &\\ \hline & \multicolumn{3}{r}{\footnotesize {\it www-h1.desy.de/h1/www/publications/conf/conf\_list.html}} \\[.2em] \end{tabular} \end{small} \end{center} \vspace*{2cm} \begin{center} \Large {\bf Measurement of the Polarisation Dependence of the Total \boldmath{$e^{-}p$} Charged Current Cross Section} \vspace*{1cm} {\Large H1 Collaboration} \end{center} \begin{abstract} \noindent Data taken with the H1 detector, for longitudinally polarised electrons in left handed state in collision with unpolarised protons at HERA, are used to measure the total charged current cross section for $Q^2>400$\,GeV$^2$ and inelasticity $y<0.9$. The polarisation dependence of the total charged current cross section is compared with Standard Model expectations. %The data are used to %obtain an extrapolated total charged current cross section for a fully %left handed electron beam. This extrapolation is found to be %consistent with the expectations of the Standard Model. \noindent \end{abstract} \end{titlepage} \pagestyle{plain} %\section{Results} The integrated charged current (CC) cross section of longitudinally polarised electrons in collision with protons is measured in the range $Q^2> 400$\,GeV$^2$ and $y<0.9$. The measurement of the cross section is performed following the same analysis procedure as in~\cite{eplus0304} and is based on the left handed data set taken recently by the H1 experiment with an integrated luminosity of $L = (17.75 \pm 0.21)$\,pb$^{-1}$ and an average polarisation of $P_e=(-25.40 \pm 0.44)\,\%$. The value is: \begin{eqnarray*} \label{result} \sigma_{CC} (P_e= -0.25) & = & 66.42\,{\rm pb} \pm 2.39\,{\rm pb \,\,(stat)} \pm 2.99\,{\rm pb \,\,(sys)} \end{eqnarray*} where the $1.2\%$ luminosity normalisation uncertainty is included in the systematic error. The polarisation uncertainty, which does not directly enter in the cross section measurement, is shown in Fig.~\ref{fig:xscc}. The measurement of the unpolarised CC cross section based on the HERA-I data set with a luminosity of $16.4$~pb$^{-1}$ and measured in the same phase space region is: \begin{eqnarray*} \label{resultunpol} \sigma_{CC} (P_e=0) & = & 57.03\,{\rm pb} \pm 2.21 \,{\rm (stat)} \pm 1.38 \,{\rm (sys)} \end{eqnarray*} where the systematic error also includes the normalisation uncertainty of $1.8\%$. The polarisation dependence of these cross sections is shown in Fig.~\ref{fig:xscc} in comparison with the Standard Model expectations based on the H1 PDF 2000~\cite{h1pdf2000}. Also shown are the total cross sections and their polarisation dependence of the charged current interactions measured previously in positron-protron collisions~\cite{eplus0304}. \begin{thebibliography}{99} \bibitem{eplus0304} H1 Collaboration, Contributed paper no. 756/758 to ICHEP04, http://www-h1.desy.de/h1/www/publications/htmlsplit/H1prelim-04-141.long.html\,. \bibitem{h1pdf2000} H1 Collaboration (C. Adloff et al.), {\it Eur.\ Phys.\ J.} {\bf C30} (2003) 1. \end{thebibliography} \newpage \newpage %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \begin{figure}[htb] \begin{center} \begin{picture}(90,90)(0,0) \setlength{\unitlength}{1 mm} \put(-30, -5){\epsfig{file=H1prelim-05-042.fig1.eps,width=\textwidth}} \end{picture} \end{center} \caption{Distribution of luminosity versus polarisation $P_e$ for data taken in 2005.} \label{pol} \end{figure} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \newpage %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \begin{figure}[htb] \begin{center} \begin{picture}(90,90)(0,0) \setlength{\unitlength}{1 mm} \put(-20, -5){\epsfig{file=H1prelim-05-042.fig2.eps,bbllx=547,bblly=47,bburx=767,bbury= 17,width= 4.1cm,angle=-90}} \put(-05,92){\bf (a)} \put( 63,92){\bf (b)} \put(-05,41){\bf (c)} \put( 63,41){\bf (d)} \end{picture} \end{center} \caption{ Distributions of $E_e^{\prime}$ (a), $\theta_e$ (b), $Q^2$ (c) and $P_{T,h}/P_{T,e}$ (d) of the NC data set.} \label{lhnc} \end{figure} \begin{figure}[htb] \begin{center} \begin{picture}(90,90)(0,0) \setlength{\unitlength}{1 mm} \put(-20,-5){\epsfig{file=H1prelim-05-042.fig3.eps,bbllx=547,bblly=47,bburx=767,bbury= 17,width=4.1cm,angle=-90}} \put(-05,92){\bf (a)} \put( 63,92){\bf (b)} \put(-05,41){\bf (c)} \put( 63,41){\bf (d)} \end{picture} \end{center} \caption{ Distributions of $Q^2_h$ (a), $P_{T,h}$ (b), $E_h-p_{z,h}$ (c) and $x_h$ (d) of the CC data set.} \label{lhcc} \end{figure} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \newpage %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \begin{figure}[htb] \begin{center} \begin{picture}(90,150)(0,0) \setlength{\unitlength}{1 mm} \put(-40, 0){\epsfig{file=H1prelim-05-042.fig4.eps,width=\textwidth}} \end{picture} \end{center} \caption{\label{fig:xscc} The dependence of the $e^+p$ and $e^-p$ CC cross section with the lepton beam polarisation $P_e$ is shown. The data are compared to the prediction from the H1 PDF 2000 fit for polarised positrons (dashed line) and for polarised electrons (full line) . } \label{xsec} \end{figure} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \end{document}