% % Simple template for an abstract of a contributed paper, % PANIC99, Uppsala, Sweden, June 10-16, 1999 % \documentstyle[epsfig,graphicx,12pt]{article} % \setlength{\textwidth}{160mm}\setlength{\textheight}{240mm} \setlength{\oddsidemargin}{0mm}\setlength{\evensidemargin}{0mm} \setlength{\topmargin}{0mm} \setlength{\parindent}{0mm} \pagestyle{empty} %no page number! % \begin{document} % {\large\bf Phi Asymmetries in Dijet Production in Deep-inelastic Scattering at HERA }\\ [4mm] % {H1 Collaboration}\\ % {\small \em DESY, Hamburg, Germany}\\[6mm] % The helicity dependent azimuthal asymmetries in (2+1) jet events in deep-inelastic scattering at HERA have been measured. The data sample has been taken in the years 1996 -- 1997 and corresponds to an integrated luminosity of ${\cal L}_{int} \simeq 20\;\mbox{pb}^{-1}$. For semi-inclusive measurements of neutral current DIS processes with unpolarized beams , the cross-section can be written as a function of 4 structure-functions, $d^{5}\sigma=(1+(1-y)^2)\,F_{2}+2(1-y)\,F_{L}-(2-y)\sqrt{1-y}\,F_{4} \cos\phi^*+2(1-y)\,F_{6}\cos2\phi^*$, where $\phi^*$ is defined in the Breit system as the angle between the lepton-plane and the hadron-plane. The ratios $R=F_{L,4,6}/F_{2}$ all go like $k^{2}_{\perp}/Q^2$ for $Q^2>>k^{2}_{\perp}$. The fact that the intrinsic $p_{\perp}$ of the proton is contributing in a non-trivial manner motivated an exclusive jet measurement to establish the scaling properties of the structure-functions and the size and shape of the effects from the intrinsic $p_{\perp}$. Systematic effects stemming from QED-radiation on the lepton-side and the acceptance of the detector are thoroughly discussed. The sensitivity to the helicity is checked with a toy-model,where the gluons have spin-0. The effects stemming from the intrinsic $p_{\perp}$ of the proton is incorporated in a Monte-Carlo model and, using this, the intrinsic $p_{\perp}$ in our data is estimated to be below $300\,MeV$. The measurement is in very good agreement with both analytical predictions concerning scaling, and a detailed Monte-Carlo integration of leading order QCD. \end{document}