%0 Journal Article
%A Jenkovszky, L. L.
%A Kuprash, Oleg
%A Orava, Risto
%A Salii, Andrii
%T Low Missing Mass, Single- and Double Diffraction Dissociation at the LHC
%J Physics of atomic nuclei
%V 77
%N 12
%@ 1562-692X
%C New York, NY
%I AIP
%M PUBDB-2015-01143
%M arXiv:1211.5841
%P 1463 - 1474
%D 2014
%Z OA
%X The cross sections for single and double diffraction dissociation at low missing masses are calculated for the LHC energies on the basis of the dual (Regge) model under the assumption of a dominant contribution of the exchange of the Pomeron Regge pole. The model reproduces the rich resonance structure in the region of low missing masses M<sub>x</sub> . Diffractively excited states lie on the nucleon trajectory M<sub>x</sub> supplemented with the isolated Roper resonance. Detailed predictions for the squared momentum transfer and missing-mass dependence of the differential and integrated single and double diffraction dissociation in the kinematical range of present and future LHC measurements are given.
%K diffraction: dissociation (INSPIRE)
%K Regge poles: exchange (INSPIRE)
%K pomeron (INSPIRE)
%K missing-mass (INSPIRE)
%K CERN LHC Coll (INSPIRE)
%K differential cross section: momentum transfer (INSPIRE)
%K excited state (INSPIRE)
%K trajectory (INSPIRE)
%K nucleon (INSPIRE)
%K N(1440) (INSPIRE)
%K p p: interaction (INSPIRE)
%K cross section (INSPIRE)
%K CERN SPS (INSPIRE)
%K Brookhaven RHIC Coll (INSPIRE)
%K CERN Lab (INSPIRE)
%F PUB:(DE-HGF)16 ; PUB:(DE-HGF)15
%9 Journal ArticleInternal Report
%R 10.1134/S1063778814120072
%U https://bib-pubdb1.desy.de/record/207158