Three jet cross sections in photoproduction at HERA

Abstract.

We calculate three jet cross sections in photoproduction using exact matrix elements for the direct and resolved contributions. Numerical distributions are presented in a generic, irreducible set of variables that allows to disentangle the dynamics of partonic QCD subprocesses from each other and from pure phase space distributions. The results are compared to preliminary data from the ZEUS collaboration at HERA. It is found that the largest contribution comes from photon-gluon fusion in the mass range 36 GeV \(< M_{\rm 3-jet} <\) 80 GeV. The measured leading jet scattering angle distribution is consistent with the \(t\)-channel exchange of a massless fermion in \(2\rightarrow 2\) scattering, where the third parton is assumed to arise from soft bremsstrahlung. The data are inconsistent with pure phase space and Rutherford scattering distributions.