The first heavy ion collisions at the LHC - HIC10

Europe/Zurich
TH Theory Conference Room (CERN)

TH Theory Conference Room

CERN

Bernd Mueller (-), Edward Shuryak , Krzysztof Redlich (University of Wroclaw), Urs Wiedemann (CERN)
Description
At the end of the first year of operation, the LHC will collide in 2010 for the first time lead ions at the TeV scale. Many of the long-debated characteristics of heavy ion colli-sions will become experimentally accessible in this first exploratory low luminosity run. In particular, early experimental results are expected on the topics of event multiplicity and multiplicity distributions, elliptic flow, and early measurements of the nuclear modi-fication factor. This CERN TH Institute aims at an in-depth discussion of the theoretical basis and phenomenological modeling of heavy ion collisions at the TeV-scale. It will be a forum for the discussion of novel and even unconventional ideas, with particular emphasis on those measurements, which will be feasible in the first year of heavy ion running.
Participants
  • Abhijit Majumder
  • Adam Bzdak
  • Amir Rezaeian
  • Andrea Beraudo
  • Andreas Schaefer
  • Andrei Leonidov
  • Andrzej Bialas
  • Ariel Zhitnitsky
  • Arshad Ahmad
  • Berndt Mueller
  • Bjorn Nilsen
  • Boris Tomasik
  • Burkhard Kampfer
  • Carlos Pajares
  • Chihiro Sasaki
  • Claudia Ratti
  • Cyrille Marquet
  • Daniel LITIM
  • David Blaschke
  • David Mateos
  • Deog-Ki Hong
  • Edmond Iancu
  • Edward Allen Wenger
  • Edward Shuryak
  • Elias Kiritsis
  • Francois Arleo
  • Francois Gelis
  • Frithjof Karsch
  • Gennady Zinovjev
  • Gennaro Corcella
  • Gergely Gábor Barnaföldi
  • Gregory Soyez
  • Hannah Petersen
  • Helmut Satz
  • Hiranmaya Mishra
  • Igor Dremin
  • Ijaz Ahmed
  • Jamal Jalilian-Marian
  • Jan Rafelski
  • Javier Albacete
  • Jean Cleymans
  • Jorge Casalderrey Solana
  • José Guilherme Milhano
  • Kari J. Eskola
  • Keijo Kajantie
  • Kenji Morita
  • Krishna Rajagopal
  • Krzysztof Redlich
  • Ludwik Turko
  • Marcus Bluhm
  • Mark Strikman
  • MASAYUKI ASAKAWA
  • Matthew Luzum
  • Michael Lublinsky
  • Michael Strickland
  • Nestor Armesto
  • Paloma Quiroga Arias
  • Paolo Castorina
  • Peter Levai
  • Piotr Bozek
  • Quercigh Emanuele
  • Robert Pisarski
  • rohini godbole
  • Rudolf Baier
  • Sona Pochybova
  • Steffen A. Bass
  • Ulrich Heinz
  • Urs Achim Wiedemann
  • Vladimir Skokov
  • Volker Koch
  • Xin-Nian Wang
  • Zoltan Fodor
    • 14:00 14:10
      Short Introduction by Organizers 10m
    • 14:15 15:15
      Status of viscous hydrodynamics and the extraction of eta/s for the QGP from experimental data 1h
      I will review the present status of dynamical models for the evolution of relativistic heavy ion collision fireballs based on viscous relativistic hydrodynamics coupled to a hadron rescattering cascade, and discuss the extraction of the quark-gluon plasma viscosity from a comparison of this approach with experimental data. Further improvements of the modelling that are presently in the pipeline and will eventually address remaining open issues will also be discussed.
      Speaker: Prof. Ulrich Heinz (Ohio State University)
      Slides
    • 15:15 15:35
      Coffee in TH common room 20m
    • 10:00 10:20
      Coffee in TH common room 20m
    • 10:20 11:00
      Contribution of minijets to the elliptic flow 40m
      Speaker: Dr Boris Tomasik (Univerzita Mateja Bela)
      Slides
    • 11:20 12:00
      Sensitivity of collective flow to non-equilibrium effects 40m
      The estimation of deviations from local equilibrium in heavy-ion collisions is essential in getting information on the microscopic rates/processes in the dense matter. We show that elliptic flow observables are strongly dominated by dissipative processes at the hadronic stage. On the other hand, directed flow is an observable sensitive to the expansion details at the first 1-2fm/c. It is the only observable requiring a simultaneous acceleration from the longitudinal and transverse pressures. We present first calculation from 3+1D hydrodynamics assuming non-isotropic pressure and show that directed flow data indicate a fast pressure equilibration (<0.25fm/c).
      Speaker: Dr Piotr Bozek
      Slides
    • 10:00 10:20
      Coffee in TH common room 20m
    • 10:30 11:30
      Conformal viscous hydrodynamics and finite temperature gauge/gravity duality 1h
      Relativistic second-order viscous hydrodynamics at finite temperature is discussed. Using the Weyl-covariant formalism the constraints by conformal invariance are derived. The transport coefficients, e.g. shear viscosity etc., as a function of temperature are obtained from the strongly coupled N=4 SUSY theory applying the AdS/CFT correspondence. Recent results from a comparison with RHIC experimental data are quoted.
      Speaker: Prof. Rudolf Baier (Bielefeld University)
      Slides
    • 14:00 15:00
      Three Easy Pieces: Searching for the QCD Critical Point, Transverse Momentum Broadening and Quenching a Lighthouse Beam 1h
      Speaker: Prof. Krishna Rajagopal (MIT)
      Slides
    • 15:15 15:35
      Coffee in the TH Common Room 20m
    • 10:00 10:20
      Coffee in TH Common Room 20m
    • 10:30 11:30
      Post-selection phenomenon and fragmentation in nucleon (nucleus) - nucleus collisions. 1h
      We argue that in the proximity of the black disc QCD regime forward partons propagating through the nuclear matter fluctuate to multiparton configurations - post selection phenomenon - leading to effective fractional energy losses. The effect leads to the significant suppression of the forward jet production in the central NA collisions at RHIC energies with a moderate suppression of recoiling jet at central rapidities. Our expectations agreement with the correlation RHIC deuteron-gold data. The post-selection phenomenon should be grossly amplified at the LHC energies in pA/AA collisions. It also leads to production of pancakes of valence quarks and gluons of density > 100 GeV/fm^3 in the nuclear fragmentation region in the central heavy ion collisions.
      Speaker: Prof. Mark Strikman (Penn State Univ.)
      Slides
    • 10:00 10:20
      Coffee in TH Common Room 20m
    • 10:30 11:30
      A three-loop HTLpt-improved calculation of QCD thermodynamics 1h
      I will discuss a recently completed calculation of the NNLO calculation of the HTL-reorganized thermodynamics for QCD. I will review the basic idea of reorganization of finite temperature perturbation theory and motivate why this hard work is necessary. The final result will be a comparison of the NNLO calculation for the pressure, energy density, and entropy. I will show that the HTL-reorganized calculation agrees quite well with available lattice data down to temperatures on the order of 2 to 3 times the critical temperature. Finally, I will present an outlook for the application of the method to real time quantities such as transport coefficients, heavy quark drag/diffusion, etc.
      Speaker: Dr Michael Strickland (Gettysburg College, Gettysburg, PA USA)
      Slides
    • 10:00 10:20
      Coffee in the TH Common Room 20m
    • 10:30 11:30
      Fluidty, Supercritical Fluids, RHIC and the LHC 1h
      I will present a general fluidity measure which allows to compare fluids a vastly different length scales. Next I will discuss supercritical fluids and make contact to the fluid generated at RHIC and what this could imply for flow measurements at the LHC
      Speaker: Prof. Volker Koch (LBNL)
      Slides
    • 10:00 10:20
      Coffee in the TH Common Room 20m
    • 10:20 11:00
      String percolation and the glasma 40m
      We compare string percolation phenomenology to glasma results on particle rapidity densities, transverse size correlations,long range rapidity correlations and behaviour of the width of multiplicity distributions. We also discuss the equation of state in string percolation showing that agrees with lattice results.
      Speaker: Prof. Carlos Pajares (University of Santiago di Compostela)
      Slides
    • 11:20 12:00
      Hidden asymmetry and forward-backward correlations 40m
      A model-independent method of studying the forward-backward correlations in symmetric high-energy processes is developped. The method allows a systematic study of properties of various particle sources and to uncover asymmetric structures in symmetric hadron-hadron and nucleus-nucleus inelastic reactions.
      Speaker: Prof. Andrzej Bialas (Jagellonian University of Krakow)
      Slides
    • 09:40 10:00
      Coffee in the TH Common Room 20m
    • 10:00 11:00
      Relativistic langevin diffusion of heavy quarks from holography 1h
      Speaker: Prof. Elias Kiritsis (University of Crete)
      Slides
    • 11:00 12:00
      Fluctuations and sounds 1h
      Speaker: Prof. Edward Shuryak (SUNY Stony Brook)
      Slides
    • 14:00 15:00
      The renormalization group and quark number fluctuations near the chiral phase transition 1h
      Thermodynamics and the phase structure of the Polyakov loop-extended chiral quark--meson model is explored beyond the mean-field approximation. The analysis of the model is based on the functional renormalization group method at finite temperature and baryon density. We focus on net-quark number fluctuations as well as their higher moments and discuss the influence of non-perturbative effects and the gluon background on their properties near the chiral crossover transition. We relate the model predictions with lattice QCD results and with the first data on net proton fluctuations in Au-Au collisions obtained at RHIC by the STAR Collaboration.
      Speaker: Prof. Krzysztof Redlich (University of Wroclav)
      Slides
    • 09:40 10:00
      Coffee in the TH Common Room 20m
    • 10:00 11:00
      P and CP odd fluctuations at RHIC and charge separation effect 1h
      I will discuss a possible source of P and CP odd fluctuations observed at RHIC. The basic idea is deeply related to topological properties, the $\theta$ dependence and the resolution of $U(1)_A$ problem in QCD.
      Speaker: Prof. Ariel Zhitnitsky (University of British Columbia, Canada)
      Slides
    • 11:00 12:00
      Local parity violation - measurement, new observable and alternative contributions 1h
      Speaker: Dr Adam Bzdak (Lawrence Berkeley Laboratory)
      Slides
    • 09:40 10:00
      Coffee in the TH Common Room 20m
    • 10:00 11:00
      Recent lattice results at finite T 1h
      Recent lattice thermodynamics results of the Wuppertal-Budapest Collaboration are reviewed. The results are obtained with physical quark masses and extrapolated to the continuum limit. The transition temperature and the equation of state are discussed.
      Speaker: Prof. Zoltan Fodor
      Slides
    • 11:00 12:00
      Jet Quenching and medium excitation in heavy-ion collision 1h
      Speaker: Prof. Xin-Nian Wang (Lawrence Berkeley Laboratory)
      Slides
    • 09:00 09:15
      Short Introduction by Organizers 15m
    • 09:15 10:15
      Onset of hydrodynamical flow in a simple quantum field theory 1h
      In this talk, we show the crucial role played by quantum fluctuations in order to reach the equation of state in a system of quantum fields.
      Speaker: Dr Francois Gelis (CEA Saclay)
      Slides
    • 10:15 10:30
      Coffee in the TH Common Room 15m
    • 10:40 11:20
      Gluon saturation and inclusive hadron production at LHC 40m
      In high density QCD the hadron production stems from decay of mini-jets that have the transverse momenta of the order of the saturation scale. I will show that this idea is able to describe in a unique fashion the first data from the LHC for the inclusive charged-hadron production in pp collisions, the deep inelastic scattering at HERA at small Bjorken-x, and the hadron multiplicities in AA collisions at RHIC. Recently reported data from ALICE, CMS and ATLAS including inclusive charged-hadron transverse-momentum and multiplicity distribution in pp collisions are well described in our approach. I provide quantitative predictions for the rapidity, centrality and energy dependencies of inclusive charged-hadron productions for the LHC in AA collisions based on the idea of gluon saturation in the color-glass condensate framework. I also provide predictions for the nuclear modification factor for pions and direct-photon production in pA collisions at LHC energy.
      Speaker: Dr Amir Rezaeian (Universidad Tecnica Federico Santa Maria)
      Slides
    • 11:20 12:00
      Proton-nucleus collisions at the LHC: a tool to test factorization 40m
      The factorization of long-range phenomena into process-independent parton distributions, which underlies global PDF extractions for the proton, is assumed to extend to nuclear effects in the extraction of nuclear PDFs. As a consequence, assessing the reliability of nPDFs for benchmark calculations goes beyond testing the numerical accuracy of their extraction and requires phenomenological tests of the factorization assumption. We argue that a proton-nucleus collision program at the LHC would provide a set of measurements allowing for unprecedented tests of the factorization assumption underlying global nPDF fits.
      Speaker: Dr Paloma Quiroga (University of Santiago di Compostela)
      Slides
    • 14:00 14:40
      Bulk and shear viscosities of the Quark-Gluon Plasma 40m
      Bulk and shear viscosity coefficients of deconfined strongly interacting matter are studied by means of an effective Boltzmann kinetic theory assuming the quark-gluon plasma to be describable in terms of quasiparticle excitations with medium-dependent dispersion relations. At large temperatures, the results resemble parametric dependencies on temperature and coupling known from perturbative QCD. This allows for an extrapolation of the latter into the non-perturbative region finding fairly nice agreement with available lattice QCD results. Correspondingly, a small specific shear viscosity for energy densities reachable under LHC conditions is predicted.
      Speaker: Dr Marcus Bluhm (Subatech Nantes)
      Slides
    • 14:40 15:20
      e/m radiation from QGP with chromo-magnetic monopoles 40m
      We consider the radiation of photons from quarks scattering on color-magnetic monopoles in the Quark-Gluon Plasma. The calculation is performed in the classical, non-relativistic approximation and results are compared to photon emission from Coulomb scattering of quarks, known to provide a significant contribution to the photon emission rates from the QGP. The present study is a first step towards understanding whether this scattering process can give a sizable contribution to dilepton production in heavy-ion collisions.
      Speaker: Prof. Michael Lublinsky (University of Beer-Sheva)
      Slides
    • 15:20 15:40
      Coffee in the Common Room 20m
    • 15:40 16:40
      New results from the gauge/string duality: Quark energy loss and anisotropic plasmas 1h
      I will describe two recent results in the string description of strongly coupled gauge theory plasmas. The first one is a new mechanism whereby a quark loses energy by Cherenkov-radiating mesons in the plasma. The second is a gravity solution dual to the N=4 SYM plasma in an anisotropic state. I will discuss implications of these results for heavy-ion collision experiments.
      Speaker: Prof. David Mateos (ICREA Barcelona)
      Slides
    • 09:40 10:00
      Coffee in the TH Common Room 20m
    • 10:00 11:00
      Recent results on QCD thermodynamics: lattice QCD versus Hadron Resonance Gas model 1h
      We present our new results on the QCD transition temperature and equation of state with 2+1 flavors of dynamical quarks. All these results are confronted with the predictions of the Hadron Resonance Gas model and Chiral Perturbation Theory for temperatures below the transition region.
      Speaker: Dr Claudia Ratti (University of Wuppertal)
      Slides
    • 11:00 12:00
      Phase structure of a chiral effective model at imaginary chemical potential 1h
      We investigate the behavior of the order parameters at finite temperature and imaginary chemical potential by making use of PNJL model. We discuss results from different Polyakov loop potentials and their implication to the dual order parameters.
      Speaker: Dr Kenji Morita (GSI Theory Group)
      Slides
    • 14:00 15:00
      Triangular flow in hydrodynamics and transport theory 1h
      In ultrarelativistic heavy-ion collisions, the Fourier decomposition of the relative azimuthal angle, $\Delta\phi$, distribution of particle pairs yields a large $\cos (3\Delta\phi)$ component, extending out to large rapidity separations $\Delta \eta>1$. This component captures a significant portion of the ridge and shoulder structures in the $\Delta\phi$ distribution, which have been observed after contributions from elliptic flow are subtracted. An average finite triangularity due to event-by-event fluctuations in the initial matter distribution, followed by collective flow, naturally produces a $\cos (3\Delta\phi)$ correlation. Using ideal and viscous hydrodynamics, and transport theory, we study the physics of triangular ($v_3$) flow in comparison to elliptic ($v_2$), quadrangular ($v_4$) and pentagonal ($v_5$) flow. We make quantitative predictions for $v_3$ at RHIC and LHC as a function of centrality and transverse momentum. Our results for the centrality dependence of $v_3$ show a quantitative agreement with data extracted from previous correlation measurements by the STAR collaboration. This study supports previous results on the importance of triangular flow in the understanding of ridge and shoulder structures. Triangular flow is found to be a sensitive probe of initial geometry fluctuations and viscosity.
      Speaker: Dr Matthew Luzum (CEA Saclay)
      Slides
    • 15:00 15:20
      Coffee in the TH Common Room 20m
    • 15:20 16:00
      Entropy Production in high energy Heavy Ion Collisions 40m
      Speaker: Prof. Andreas Schäfer (University of Regensburg)
      Slides
    • 16:00 16:40
      Extended longitudinal scaling - LHC predictions 40m
      The property of extended longitudinal scaling of rapidity distributions was noticed recently over a broad range of beam energies. It is shown here that this property is consistent with predictions of the statistical thermal model up to the highest RHIC beam energies. We expect,however, that at LHC energies the rapidity distribution of produced particles will violate extended longitudinal scaling.
      Speaker: Prof. Ludwik Turko (University of Wroclaw)
      Slides
    • 09:00 10:00
      Event-by-event hydrodynamics and elliptic flow from fluctuating initial state 1h
      We develop a framework for event-by-event ideal hydrodynamics to study the differential elliptic flow which is measured at different centralities in Au+Au collisions at Relativistic Heavy Ion Collider (RHIC). Fluctuating initial energy density profiles, which here are the event-by-event analogues of the eWN profiles, are created using a Monte Carlo Glauber model. Using the same event plane method for obtaining $v_2$ as in the data analysis, we can reproduce both the measured centrality dependence and the $p_T$ shape of charged-particle elliptic flow up to $p_T\sim2$~GeV. We also consider the relation of elliptic flow to the initial state eccentricity using different reference planes, and discuss the correlation between the physical event plane and the initial participant plane. Our results demonstrate that event-by-event hydrodynamics with initial state fluctuations must be accounted for before a meaningful lower limit for viscosity can be obtained from elliptic flow data. based on: Hannu Holopainen, Harri Niemi, Kari J. Eskola, e-Print: arXiv:1007.0368 [hep-ph]
      Speaker: Prof. Kari Eskola
      Slides
    • 10:00 10:20
      Coffee in the TH Common Room 20m
    • 10:20 11:00
      Trace anomaly, chiral symmetry breaking and parity doubled nucleons 40m
      Spontaneous chiral symmetry breaking and trace anomaly are intrinsically tied via the emergence of a scale in QCD. I discuss thermodynamics and chiral properties of baryons in a parity doublet model.
      Speaker: Dr Chihiro Sasaki (FIAS Frankfurt)
      Slides
    • 11:00 11:40
      Mapping out the phase diagram 40m
      We employ a conformal mapping of the chemical potential $\mu$ to explore the thermodynamics of strongly interacting matter at finite values of the baryon chemical potential $\mu$. This method allows us to identify the singularity corresponding to the critical point of a second-order phase transition at finite $\mu$ given information only at $\mu=0$. This scheme is potentially useful for computing thermodynamic properties of strongly interacting hot and dense matter in lattice QCD. The usefulness of this technique is illustrated by an application to a chiral effective model.
      Speaker: Dr Vladimir Skokov (GSI Darmstadt)
      Slides
    • 14:15 15:15
      Energy loss and other processes in the semi Quark Gluon Plasma 1h
      or the collisions of heavy ions, the crucial question is whether results at the LHC will be similar, or dramatically different, from those at RHIC. I discuss how they might be very different, based upon an ansatz for the transition region to deconfinement, the "semi" QGP. I discuss various processes change markedly, including the shear viscosity and energy loss, although surprising, not dilepton production.
      Speaker: Prof. Rob Pisarski (BNL)
      Slides
    • 15:15 15:35
      Coffee in the TH Common Room 20m
    • 15:35 16:15
      Parton showers with medium-modified splitting functions 40m
      I will discuss the inclusion of medium-modified splitting functions, according to the BDMPS approximation, in parton shower generators. Particular care will be taken about the implementation in the HERWIG algorithm, which satisfies the angular ordering prescription. I will present results on transverse momentum, angle and energy distributions, which exhibit remarkable medium effects.
      Speaker: Dr Gennaro Corcella (INFN Pisa)
      Slides
    • 16:15 17:00
      Decoherence effects in QCD cascades in medium 45m
      Effects of decoherence and resulting destruction of angular ordering on the properties of the in-medium QCD cascades is discussed
      Speaker: Prof. Andrey Leonidov (Moscow)
      Slides
    • 09:00 10:00
      A factorized approach to jet modification in dense matter. 1h
      We demonstrate that a formalism where one assumes a hard jet to be weakly coupled to a medium, which may itself be strongly or weakly coupled, can be used to explain high $p_T$ leading particle suppression and azimuthal anisotropy. In this calculation the scattering and multiple emissions of partons within a jet is computed entirely within perturbation theory. The scattering matrix elements are assumed to be factorized into a hard partonic part and a soft non-perturbative part. The soft part may be expressed as the expectation of certain operator products in the medium. There exist a set of related operators which encode the usual transport coefficients which describe transverse broadening, elastic energy loss and longitudinal diffusion. Relating these operators to each other such that there exists only one undetermined constant, which is scaled with temperature according to its energy dimensions, we successfully describe both heavy and light flavor jet modification. Imposing additional constraints on the coefficients such as requiring that they be computed within Leading Order HTL tends to worsen the fit. This indicates that jet quenching coefficients cannot be calculated at Leading Order in HTL theory.
      Speaker: Dr Abhijit Majumder (Ohio State University)
      Slides
    • 10:00 10:20
      Coffee in the TH Common Room 20m
    • 10:20 11:20
      Jet quenching in the strongly-interacting quark-gluon plasma 1h
      We propose a hybrid model for medium-induced parton energy loss, in which the hard scales in the process are treated perturbatively, while the soft scales which involve strong coupling dynamics are modeled by AdS/CFT calculations. After fitting a single parameter on R_AA for central Au+Au collisions, we are able to predict different observables like R_AA and I_AA as a function of centrality and reaction plane. We obtain a consistent picture of how jet quenching is modified if the quark-gluon plasma is strongly interacting, and we provide quantitative predictions.
      Speaker: Dr Marquet Cyrille (CERN PH-TH)
      Slides
    • 11:20 12:00
      Collective excitations of the quark-gluon medium in macroQCD 40m
      The effects induced by the polarization of the quark-gluon medium due to penetrating it partons are considered in the framework of the macroscopic QCD. Among them are Cherenkov gluons, the wake effect and the transition radiation. Corresponding experimental data are discussed.
      Speaker: Prof. Igor Dremin (Moscow)
      Slides
    • 14:00 15:00
      Theoretical challenges 1h
      I discuss novel theoretical approaches towards understanding the strongly coupled QGP produced in heavy ion collisions. In particular, I shall emphasize the role that dualities play in these approaches.
      Speaker: Prof. Edward Shuryak (SUNY Stony Brook)
      Slides
    • 15:00 15:20
      Coffee in the TH Common Room 20m
    • 15:20 16:00
      AAMQS: a non-linear QCD phenomenological tool 40m
      Recent developments in the computation of the NLO improvement for non-linear QCD evolution equations has allowed, for the first time, for the consistent description of experimental data using a first principle approach including non-linearities. In particular, the Balitsky-Kovchegov equation including running coupling effects (rcBK) has been shown to provide an excellent global description of inclusive DIS data. I will present the results of global fits to proton data (with and without heavy quarks), and discuss the ongoing effort to extend to the nuclear case, performed in a numerical implementation of rcBK. The resulting parametrizations allow for the reliable computation of physical observables in a kinematical region (relevant for both p-p and A-A programmes at the LHC) where the standard DGLAP based techniques are expected to fail.
      Speaker: Prof. Guilherme Milhano (CENTRA-IST (Lisbon) & CERN-PH-TH)
      Slides
    • 16:00 16:40
      The cookbook for jets in heavy ion collisions 40m
      Speaker: Dr Gregory Soyez (CERN)
      Slides
    • 09:00 09:30
      Heavy Ions in the LHC - accelerator update 30m
      Speaker: Dr John Jowett (CERN BE Department)
      Slides
    • 09:30 10:15
      First results from ALICE and perspectives for the HI run 45m
      Speaker: Prof. Federico Antinori (INFN Padova & CERN)
      Slides
    • 10:15 10:35
      Coffee in the TH Common Room 20m
    • 10:35 11:20
      First Results from CMS and perspectives for the HI run 45m
      Speaker: Dr Ed Wenger
    • 11:20 12:05
      First Results from ATLAS and perspectives for the HI run 45m
      Speaker: Dr Heather Gray
      Slides
    • 13:30 14:20
      Predictions for the LHC heavy ion programme - an update 50m
      Speaker: Prof. Nestor Armesto (University of Santiago di Compostela)
      Slides
    • 14:20 15:10
      Exploration of Hot QCD Matter: The Next Decade 50m
      Since the year 2000, the Relativistic Heavy Ion Collider has explored the properties of hot QCD matter in an energy regime where hard QCD probes and ab-initio calculations are available. The results from RHIC have led to a dramatic revision of our notion of the quark-gluon plasma as a strongly coupled, nearly inviscid liquid highly opaque to probes carrying open color, i.e. quarks and gluons).However, many details of this new picture remain fuzzy. My lecture will give a preview of the opportunities opened up by the LHC, the RHIC upgrades, and theoretical advances during the next decade to answer some of the many remaining questions about the physics of hot QCD matter.
      Speaker: Prof. Berndt Mueller (Duke University)
      Slides
    • 15:10 15:30
      Coffee in the TH Common Room 20m
    • 09:40 10:00
      Coffee in the TH Common Room 20m
    • 10:00 11:00
      Charmonia at finite temperature and momentum 1h
      In this talk, I will present recent results of spectral functions of charmonia at finite temperature and momentum obtained from lattice correlators. We used large lattices with large volume in order to fully include thermal effects. The calculation was carried out by M. Kitazawa, Y. Kouno, C. Nonaka, and myself.
      Speaker: Prof. Masayuki Asakawa (University of Osaka)
      Slides
    • 11:00 12:00
      Quarkonia in Deconfined Matter 1h
      After surveying the distinguishing features of quarkonia, I discuss their behavior in a quark-gluon plasma, as given by effective field theory and potential models as well as by lattice QCD. This is then used to discuss sequential quarkonium suppression in nuclear collisions. Finally I consider the possibility of statistical formation of charmonia at hadronization, together with predictions for LHC measurements as resulting from the two scenarios.
      Speaker: Prof. Helmut Satz (Bielefeld University)
      Slides
    • 09:40 10:00
      Coffee in the TH Common Room 20m
    • 10:00 11:00
      Langevin dynamics and energy loss for a heavy quark in a strongly coupled plasma 1h
      Speaker: Prof. Edmond Iancu (CEA Saclay)
      Slides
    • 11:00 12:00
      Heavy-quark Langevin dynamics and single-electron spectra in nucleus-nucleus collisions 1h
      The stochastic dynamics of heavy quarks in the fireball produced in heavy-ion collisions is followed through numerical simulations based on the Langevin equation. The R_AA and v_2 of c and b quarks, hadrons and single-electrons is studied. The transport coefficients are evaluated treating separately the contribution of soft and hard collisions. The initial heavy-quark spectra are generated according to NLO-pQCD, accounting for nuclear effects through recent nPDFs. The evolution of the medium is obtained from the output of two hydro-codes (ideal and viscous). The heavy-quark fragmentation into hadrons and their final semileptonic decays are implemented according to up to date experimental data. A comparison with RHIC data for non-photonic electron spectra is given. Some scenarios of interest for LHC are also explored.
      Speaker: Dr Andrea Beraudo (CERN PH-TH)
      Slides
    • 09:40 10:00
      Coffee in the TH Common Room 20m
    • 11:00 12:00
      Nielsen-Olesen instability towards thermalization 1h
      Speaker: Prof. Hirotsugu Fujii (Tokyo University)
      Slides
    • 09:40 10:00
      Coffee in the TH Common Room 20m
    • 10:00 11:00
      High-pT particle production mechanisms at RHIC and LHC 1h
      Speaker: Prof. Peter Levai (KFKI Budapest)
      Slides
    • 11:00 12:00
      The quest for the dense matter phase diagram and EoS 1h
      After a short introduction to modern observations of compact stars, which concern different astrophysical objects such as pulsars, double neutron stars, accreting low-mass X-ray binaries etc., we explain how to extract from mass and radius measurements the cold dense equation of state (EoS). In the near future the NASA International X-ray Observatory (IXO) project shall deliver such data with 5% accuracy and thus provide a benchmark for the T=0 EoS which will play a similar role as the zero-density EoS from Lattice QCD. In the main body of the talk, we will outline a quantum field theoretical approach to the EoS of dense quark matter with special emphasis on color superconducting quark matter phases and their importance for understanding the phenomenology of compact stars. An outlook is given to the problem of generalizing the EoS to a wide enough range of densities, temperatures and isospin asymmetries in order to apply it for both, supernova collapse simulations and heavy-ion collisions from FAIR-CBM and JINR-NICA to BNL-RHIC and CERN-LHC. This is one of the tasks attacked within the research networking programme "The New Physics of Compact Stars - CompStar" (2008-2013) of the European Science Foundation.
      Speaker: Prof. David Blaschke (University of Wroclaw & JINR Dubna)
      Slides
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