Abstract:The process of baryon number transfer due to string junction propagation in rapidity is considered. It has a significant effect in the net baryon production in pp collisions at mid-rapidities and an even larger effect in the forward hemisphere in the cases of πp and γp interactions. The results of numerical calculations in the framework of the Quark-Gluon String Model are in reasonable agreement with the data with the same parameter values for different energies.
“…The processes of baryon number transfer via string junction diffusion [24,[28][29][30][31][32][33] should also be accounted at these so high energies.…”
Section: Predictions For Lhc Energiesmentioning
confidence: 99%
“…5c contains a coefficient ε which determines the small probability of such baryon number transfer. The values of the parameters α SJ and ε which correctly describe [28][29][30][31][32][33] all the data concerning baryon number transfer at high energies were presented in [28] :…”
Section: Inclusive Spectra In P+au and D+au Collisions At Cern Sps Enmentioning
A b s t r a c tIn the framework of Quark-Gluon String Model we calculate the inclusive spectra of secondaries produced in d+Au collisions at intermediate (CERN SPS) and at much higher (RHIC) energies. The results of numerical calculations at intermediate energies are in reasonable agreement with the data. At RHIC energies numerically large inelastic screening corrections (percolation effects) should be accounted for in calculations. We extract these effects from the existing RHIC experimental data on minimum bias and central d+Au collisions. The predictions for p+Au interactions at LHC energy are also given.PACS. 25.75.Dw Particle and resonance production 1
“…The processes of baryon number transfer via string junction diffusion [24,[28][29][30][31][32][33] should also be accounted at these so high energies.…”
Section: Predictions For Lhc Energiesmentioning
confidence: 99%
“…5c contains a coefficient ε which determines the small probability of such baryon number transfer. The values of the parameters α SJ and ε which correctly describe [28][29][30][31][32][33] all the data concerning baryon number transfer at high energies were presented in [28] :…”
Section: Inclusive Spectra In P+au and D+au Collisions At Cern Sps Enmentioning
A b s t r a c tIn the framework of Quark-Gluon String Model we calculate the inclusive spectra of secondaries produced in d+Au collisions at intermediate (CERN SPS) and at much higher (RHIC) energies. The results of numerical calculations at intermediate energies are in reasonable agreement with the data. At RHIC energies numerically large inelastic screening corrections (percolation effects) should be accounted for in calculations. We extract these effects from the existing RHIC experimental data on minimum bias and central d+Au collisions. The predictions for p+Au interactions at LHC energy are also given.PACS. 25.75.Dw Particle and resonance production 1
“…However, for such value of α SJ different values of ε were needed for the correct description of the experimental data at moderate and high energies. This problem was solved in [17], where it was shown with the help of more recent experimental data that all the data can be described with the parameter values α SJ = 0.9 and ε = 0.024 .…”
Section: Baryon As 3q + Sj Systemmentioning
confidence: 99%
“…Important results on the baryon number transfer due to SJ diffusion in rapidity space were obtained in [16] and following papers [17][18][19][20][21].…”
A b s t r a c tWe consider the phenomenological implications of the assumption that baryons are systems of three quarks connected through gluon string junction. The transfer of baryon number in rapidity space due to the string junction propagation is considered in detail. At high energies this process leads to a significant effect on the net baryon production in hN collisions at mid-rapidities. The numerical results for midrapidity inclusive densities of different secondaries in the framework of the Quark-Gluon String Model are in reasonable agreement with the experimental data. One universal value λ ≃ 0.25 for the strangeness suppression parameter correctly describes the yield ratios of Λ/p, Ξ/Λ, and Ω/Ξ. The predictions for pp collisions at LHC energies are also presented.PACS. 25.75.Dw Particle and resonance production 1
“…The presented picture leads to several phenomenological predictions [10]- [12]. In particular, there exist the rooms for exotic states, such as glueboll, or gluonium ("closed string"), Fig.…”
Section: Structure Of Multiquark Systemsmentioning
We consider the production and decay of multiquark systems in the framework of string models where the hadron structure is determined by valence quarks together with string junctions. We show that the low mass multiquark resonances can be very narrow.PACS. 25.75.Dw Particle and resonance production 1
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