33,098 research outputs found

    Gluon saturation and Feynman scaling in leading neutron production

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    In this paper we extend the color dipole formalism to the study of leading neutron production in e+pe+n+Xe + p \rightarrow e + n + X collisions at high energies and estimate the related observables, which were measured at HERA and may be analysed in future electron-proton (epep) colliders. In particular, we calculate the Feynman xFx_F distribution of leading neutrons, which is expressed in terms of the pion flux and the photon-pion total cross section. In the color dipole formalism, the photon-pion cross section is described in terms of the dipole-pion scattering amplitude, which contains information about the QCD dynamics at high energies and gluon saturation effects. We consider different models for the scattering amplitude, which have been used to describe the inclusive and diffractive epep HERA data. Moreover, the model dependence of our predictions with the description of the pion flux is analysed in detail. We show that the recently released H1 leading neutron spectra can be reproduced using the color dipole formalism and that these spectra could help us to observe more clearly gluon saturation effects in future epep colliders.Comment: 10 pages, 5 figure

    Tetraquark Production in Double Parton Scattering

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    We develop a model to study tetraquark production in hadronic collisions. We focus on double parton scattering and formulate a version of the color evaporation model for the production of the X(3872)X(3872) and of the T4cT_{4c} tetraquark, a state composed by the ccˉccˉc \bar{c} c \bar{c} quarks. We find that the production cross section grows rapidly with the collision energy s\sqrt{s} and make predictions for the forthcoming higher energy data of the LHC.Comment: 13 pages, 3 figures. Corrections in the text and reference

    Double vector meson production in the International Linear Collider

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    In this paper we study double vector meson production in γγ\gamma \gamma interactions at high energies and, using the color dipole picture, estimate the main observables which can be probed at the International Linear Collider (ILC). The total γ(Q12)+γ(Q22)V1+V2\gamma (Q_1^2) + \gamma (Q_2^2) \rightarrow V_1 + V_2 cross-sections for Vi=ρV_i = \rho, ϕ\phi, J/ψJ/\psi and Υ\Upsilon are computed and the energy and virtuality dependencies are studied in detail. Our results demonstrate that the experimental analysis of this process is feasible at the ILC and it can be useful to constrain the QCD dynamics at high energies.Comment: 11 pages, 8 figure

    Nuclear shadowing in deep inelastic scattering on nuclei: a closer look

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    The measurement of the nuclear structure function F2A(x,Q2)F_2^A (x,Q^2) at the future electron-ion collider (EIC) will be of great relevance to understand the origin of the nuclear shadowing and to probe gluon saturation effects. Currently there are several phenomenological models, based on very distinct approaches, which describe the scarce experimental data quite successfully. One of main uncertainties comes from the schemes used to include the effects associated to the multiple scatterings and to unitarize the cross section. In this paper we compare the predictions of three different unitarization schemes of the nuclear structure function which use the same theoretical input to describe the projectile-nucleon interaction. In particular, we consider as input the predictions of the Color Glass Condensate formalism, which reproduce the inclusive and diffractive epep HERA data. Our results suggest that the experimental analysis of F2AF_2^A will be able to discriminate between the unitarization schemes.Comment: 16 pages, 4 figure

    Non-linear Poisson-Boltzmann Theory for Swollen Clays

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    The non-linear Poisson-Boltzmann equation for a circular, uniformly charged platelet, confined together with co- and counter-ions to a cylindrical cell, is solved semi-analytically by transforming it into an integral equation and solving the latter iteratively. This method proves efficient, robust, and can be readily generalized to other problems based on cell models, treated within non-linear Poisson-like theory. The solution to the PB equation is computed over a wide range of physical conditions, and the resulting osmotic equation of state is shown to be in fair agreement with recent experimental data for Laponite clay suspensions, in the concentrated gel phase.Comment: 13 pages, 4 postscript figure
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