Perturbative rates and colour rearrangement effects in four-jet events at LEP2
arXiv:hep-ph/9605449 · doi:10.1007/s002880050411
Abstract
An important issue in the direct reconstruction method of determining the $W$ mass from $q\bar q Q\bar Q$ events at LEP2 concerns the impact of the relatively unknown QCD interconnection effects. It has been suggested that a study of `short string' states, in which colour singlet states are formed from $q \bar Q $ and $Q\bar q$ pairs with small phase--space separation, could shed important light on this issue. We show that such configurations can also be generated by conventional background $e^+e^-\ar 4$~parton processes, in particular QCD $q \bar q g g$ and $q \bar q Q \bar Q$ and non--resonant electroweak $q \bar q Q \bar Q$ production. We study the colour and kinematic structure of these background contributions, and estimate the event rate to be expected at LEP2. We find that the QCD processes are heavily suppressed, but that non--resonant $q \bar q Q \bar Q$ production may be comparable in rate to the expected `short string' signal from $W^+W^-$ production.
28 pages, LaTeX, including 9 PostScript figures embedded via epsfig, uses axodraw.sty and rotate.tex, complete paper available at ftp://axpa.hep.phy.cam.ac.uk/moretti/cavendish_9515 or at http://www.hep.phy.cam.ac.uk/theory/papers/