1,641 research outputs found

    Excited charmonium suppression in proton-nucleus collisions as a consequence of comovers

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    Recent results from proton(deuteron)-nucleus collisions at RHIC and LHC energies have shown an unexpected suppression of excited quarkonium states as compared to their ground states. In particular, stronger suppression of the ψ(2S)\psi(2S) relative to the J/ψJ/\psi has been detected. Similar observations were made at lower energies and were easily explained by nuclear absorption. At higher energies, a similar explanation would violate the Heisenberg principle, since the calculations based on the uncertainty principle lead to a charmonium formation time expected to be larger than the nuclear radius, which results in identical nuclear break-up probability for the ψ(2S)\psi(2S) and J/ψJ/\psi. On the contrary, this behavior is naturally explained by the interactions of the quarkonium states with a comoving medium. We present our results on J/ψJ/\psi and ψ(2S)\psi(2S) production for d+Au collisions at s=200\sqrt{s}=200 GeV and for p+Pb collisions at s=5.02\sqrt{s}=5.02 TeV.Comment: 7 pages, 5 figures. Extended version, figures unchanged. Accepted for publication in Physics Letters

    Correlations at RHIC and the Clustering of Color Sources

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    We present our results on transverse momentum fluctuations and multiplicity fluctuations in the framework of the clustering of color sources. In this approach, elementary color sources -strings- overlap forming clusters, so the number of effective sources is modified. These clusters decay into particles with mean transverse momentum that depends on the number of elementary sources that conform each cluster and the area occupied by the cluster. We find a non-monotonic dependence of the pTp_T and multiplicity fluctuations with the number of participants. In our approach, the physical mechanism responsible of these fluctuations is the same: the formation of clusters of strings that introduces correlations between the produced particles.Comment: 3 pages, 1 figure, proceedings of Quark Confinement and Hadron Spectrum VII, Ponta Delgada, Portugal, 2-7 September 200

    Charmonium dissociation and recombination at LHC: Revisiting comovers

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    We present our results on charmonium production at the Large Hadron Collider energies within the comover interaction model. The formalism includes both comover dissociation of J/ψJ/\psi's and possible secondary J/ψJ/\psi production through recombination. The estimation of this effect is made without involving free parameters. The comover interaction model also incorporates an analytic treatment of initial-state nuclear shadowing. With these tools, the model successfully describes the centrality, transverse momentum and rapidity dependence of the experimental data from PbPb collisions at the LHC energy of s=2.76\sqrt{s} = 2.76 TeV. We present predictions for PbPb collisions at s=5.5\sqrt{s} = 5.5 TeV.Comment: Review and updated version to conform with published version.Several clarifying comments added, results unchanged. 17 pages, 12 figure

    Multiplicities and J/ψJ/\psi suppression at LHC energies

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    We present our predictions on multiplicities and J/ψJ/\psi suppression at LHC energies. Our results take into account shadowing effects in the initial state and final state interactions with the hot medium. We obtain 1800 charged particles at LHC and the J/ψJ/\psi suppression increases by a factor 5 to 6 compared to RHIC.Comment: 2 pages, 2 figures. Contributed to Workshop on Heavy Ion Collisions at the LHC: Last Call for Predictions, Geneva, Switzerland, 14 May - 8 Jun 200

    Proton-proton multiplicity distributions at LHC and the Pomeron intercept

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    We compute the proton-proton multiplicity distributions at LHC energies in the framework of a multiple scattering model assuming a Poisson distribution for each inelastic collision. Multiple scattering is essential to broaden the multiplicity distribution. We obtain approximate KNO scaling for small pseudo-rapidity intervals (∣η∣<0.5|\eta | < 0.5) and sizable KNO scaling violations for larger ones, in agreement with experiment.Comment: 6 pages, 2 figure

    Radial Flow in a Final State Interaction Model

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    In the framework of a final state interaction model, we show that the so-called radial flow, i.e. the almost linear increase of the inverse slope TT with the mass of the produced particle, is already contained in the initial condition -- with a slope (the so-called strength of the average radial transverse flow) which is larger than the measured one. While the precise value of the slope depends on the details of the model, the above result has a very general basis -- namely the increase with increasing pTp_T of the fixed pTp_T suppression, in the low pTp_T region.Comment: 9 pages, 2 figure

    Elliptic Flow in a Final State Interaction Model

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    We propose a final state interaction model to describe the fixed pTp_T suppression of the yield of particles at all values of pTp_T. We make an extension of the model to the motion in the transverse plane which introduces a dependence of the suppression on the azimuthal angle θR\theta_R. We obtain values of the elliptic flow v2v_{2} close to the experimental ones for all values of pTp_T.Comment: 4 pages, 6 figures, proceedings of XLIst Rencontres de Moriond: QCD and Hadronic Interactions at high energ
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