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Predicting minimum-bias trigger-associated dijet correlations in p-p collisions

A method is derived to predict the structure of dijet-related hard components of trigger-associated (TA) hadron correlations from p-p collisions based on measured fragmentation functions (FFs) from e-e or p-pbar collisions and a minimum-bias (MB) jet or scattered-parton spectrum from p-pbar collisions. The method is based on the probability chain rule and Bayes' theorem and relates a trigger-parton--associated-fragment system from reconstructed dijets to a trigger-hadron--associated-hadron system from p-p data. The method is tested in this study by comparisons of FF TA structure with preliminary p-p TA data but can also be applied to p-A, d-A and A-A collisions over a range of energies. Quantitative comparisons of measured TA correlations with FF-derived predictions may confirm a QCD MB dijet mechanism for certain spectrum and correlation structures whose origins are currently questioned and have been attributed by some to collective expansion (flows).

preprint2014arXivOpen access
Thomas A. Trainor
hep-ph
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Thomas A. Trainor

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