We describe the properties of six-jet events, with the six-jet mass exceeding 520GeV/c2, produced at the Fermilab proton-antiproton collider operating at a center-of-mass energy of 1.8 TeV. Observed distributions for a set of 20 multijet variables are compared with predictions from the HERWIG QCD parton shower Monte Carlo program, the NJETS leading order QCD matrix element Monte Carlo program, and a phase-space model in which six-jet events are distributed uniformly over the kinematically allowed region of the six-body phase space. In general the QCD predictions provide a good description of the observed six-jet distributions.
Two-body energy sharing distributions, XA,of 2-jet combinations in reducing from 4-jet to 3-jet final states.
Two-body energy sharing distributions, XC,of 2-jet combinations in reducing from 5-jet to 4-jet final states.
Two-body energy sharing distribution, XE, of 2-jet combinations in reducing from 6-jet to 5-jet final states.
The properties of high-mass multijet events produced at the Fermilab proton-antiproton collider are compared with leading order QCD matrix element predictions, QCD parton shower Monte Carlo predictions, and the predictions from a model in which events are distributed uniformly over the available multibody phase-space. Multijet distributions corresponding to (4N-4) variables that span the N-body parameter space are found to be well described by the QCD calculations for inclusive three-jet, four-jet, and five-jet events. The agreement between data, QCD Matrix Element calculations, and QCD parton shower Monte Carlo predictions suggests that 2 -> 2 scattering plus gluon radiation provides a good first approximation to the full LO QCD matrix element for events with three, four, or even five jets in the final state.
Two-body energy sharing variable XA in 4-jet events.
Two-body energy sharing variable XA and XC in 5-jet events.
Single-body mass fraction distribution FA for two-body systems in 5-jet events.
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