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Monte Carlo study of particle production in diffractive proton-proton collisions at sqrt s = 13 TeV with the very forward detector combined with central information

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arxiv 1611.07483 v2 pith:YZ4FQX2E submitted 2016-11-22 hep-ex

Monte Carlo study of particle production in diffractive proton-proton collisions at sqrt s = 13 TeV with the very forward detector combined with central information

classification hep-ex
keywords centraldiffractiondiffractiveforwardinformationselectionwerecarlo
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Very forward (VF) detectors in hadron colliders, having unique sensitivity to diffractive processes, can be a powerful tool for studying diffractive dissociation by combining them with central detectors. Several Monte Carlo simulation samples in $p$-$p$ collisions at $\sqrt s = 13$ TeV were analyzed, and different nondiffractive and diffractive contributions were clarified through differential cross sections of forward neutral particles. Diffraction selection criteria in the VF-triggered-event samples were determined by using the central track information. The corresponding selection applicable in real experiments has $\approx$100% purity and 30%-70% efficiency. Consequently, the central information enables classification of the forward productions into diffraction and nondiffraction categories; in particular, most of the surviving events from the selection belong to low-mass diffraction events at $\log_{10}(\xi_{x}) < -5.5$. Therefore, the combined method can uniquely access the low-mass diffraction regime experimentally.

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