
pmid: 10017454
arXiv: hep-ph/9311290
We examine dijet production at large rapidity intervals at Tevatron energies, by using the theory of Lipatov and collaborators which resums the leading powers of the rapidity interval. We analyze the growth of the Mueller-Navelet $K$-factor in this context and find it to be negligible. However, we do find a considerable enhancement of jet production at large transverse momenta. In addition, we show that the correlation in transverse momentum and azimuthal angle of the tagging jets fades away as the rapidity interval is increased.
12 pages, preprint DESY 93-139, SCIPP 93/35
Born approximation, p p --> 2jet anything, pair production: jet, saddle-point approximation, FOS: Physical sciences, p p: inclusive reaction, jet: hadroproduction, 1800 GeV, 530, hadroproduction: jet, rapidity dependence, High Energy Physics - Phenomenology, jet: minijet, High Energy Physics - Phenomenology (hep-ph), jet: pair production, ratio: differential cross section, angular distribution, info:eu-repo/classification/ddc/530, differential cross section: ratio, numerical calculations, leading logarithm approximation, p p --> 2jet anything, dependence: transverse momentum
Born approximation, p p --> 2jet anything, pair production: jet, saddle-point approximation, FOS: Physical sciences, p p: inclusive reaction, jet: hadroproduction, 1800 GeV, 530, hadroproduction: jet, rapidity dependence, High Energy Physics - Phenomenology, jet: minijet, High Energy Physics - Phenomenology (hep-ph), jet: pair production, ratio: differential cross section, angular distribution, info:eu-repo/classification/ddc/530, differential cross section: ratio, numerical calculations, leading logarithm approximation, p p --> 2jet anything, dependence: transverse momentum
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