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RHIC and our understanding of hot hadronic systems

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Spectra at different rapidities compared to BRAHMS. Thermal description. works remarkably! ... BRAHMS _at_200GeV. Search and investigation of the critical point in ... – PowerPoint PPT presentation

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Title: RHIC and our understanding of hot hadronic systems


1
RHIC and our understanding of hot hadronic systems
  • Wojciech Broniowski
  • Institute of Nuclear Physics, Cracow and
  • Institute of Physics, Swietokrzyska Academy,
    Kielce
  • Ljubljana, 18 September 2006

2
1. A short story of quarks
  • 1964 Gell-Mann Phys. Lett. 8 (1964) 214-215,
  • A schematic model of baryons and mesons
  • Zweig simultaneous CERN preprint
  • 1965 Greenberg, Han, Nambu introduction of
    color, confinement
  • For many years treated as a purely theoretical
    concept!
  • 60/70 Friedman Kendall Taylor SLAC-MIT
    experiment
  • deep inelastic scattering,
  • 1968-69 Bjorken Feynman parton model
  • 1973 Fritch Gell-Mann QCD
  • Gross Wilczek Politzer asymptotic
    freedom, partonsquarks
  • 1979 three-jet events at PETRA/DESY, gluons
  • 70- Current and constituent quarks, effective
    quark models

3
from BNL web page
4
2. Quark-gluon plasma
  • 1975 Collins Perry our basic picture then is
    that matter at densities higher than nuclear
    consists of a quark soup
  • 1975 Cabibbo Parisi phase transition at the
    Hagedorn temperature
  • 1978 Shuryak first to use quark-gluon plasma
    (QGP)
  • Yad. Fiz. 28 (1978) 796
  • 1978 Chin and 1979 Kapusta consider
    quantitatively the possibility of QGP production
    in relativistic heavy ion collisions
  • 1983 Bjorken estimation of energy available for
    QGP production

5
3. Relativistic heavy-ion collisions
  • 70 BEVALAC (LBL) SYNCHROPHASOTRON
    (DUBNA), 1-4 GeV/nucleon
  • 1986 AGS (BNL) (14 GeV/n, Si) and SPS (CERN)
  • (60 and 200 GeV/n, O i S)
  • 1992 AGS (11 GeV/n, Au)
  • 1995 SPS (158 GeV/n, Pb)
  • 2000 RHIC (BNL) collider 200 GeV/nucleon pair
  • 1999 - 2003 SPS (NA49) collisions of various
    nuclei at energies of 20, 30, 40 and 80 GeV/n

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from BNL web page
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4. Signatures of QGP
  • Enhanced strangeness production, J/? suppression,
    modified dilepton production, collective
    behavior, ...
  • After 15 years of experiments CERN on 10 February
    2000 issued an official statement
  • a compelling evidence now exists for the
    formation of a new state of matter
  • Doubts remain, circumstances, models not
    referring to QGP or phase transition in many
    instances describe the data
  • Since 2000 new data from RHIC at 200 GeV/nucleon
    pair in CM frame against expectations!

14
5. Elliptic flow
Phenomenon known for 20 years ...
film by J. Mitchell
15
  • not a superposition of independent NN colisions
  • all particles flow together pions, kaons,
    protons, heavy flavor (!)
  • flow develops very early
  • QGP leads to flow!

16
6. Jet quenching
film by J. Mitchell
17
  • Evidence for very dense medium, many
    scattering centers
  • Bjorkens formula indicates density where hadrons
    largely overlay - quarks and gluons are the
    proper degrees of freedom
  • Parton interactions lead to flow
  • Simulation of partonic cascades and the success
    of hydrodynamic calculations with zero viscosity
    indicate very strong interaction of partons
  • Shuryak QGP ? sQGP
  • (nearly perfect fluid, 1000 times less viscous
    than water!)

Cross sections 50-100 times larger than in
perturbative QCD!
18
7. The fate of sQGP
  • Hard scatterings, strings, color glass
    condensate, ...
  • sQGP forms
  • sQGP expands and gradually changes into a gas of
    hadrons
  • Due to expansion the mean free path of hadrons
    increases and at some point the particles become
    free - freeze-out
  • The chemical composition (pions, kaon, nucleons,
    hyperons, K) corresponds to full chemical
    equilibrium with T 165 MeV, transverse momentum
    spectra have a Boltzmann shape with T 110 MeV
    and average velocity of transverse expansion of
    v 0.5 c

19
8. The Cracow freeze-out model PRL 87 (2001)
272302, WB W. Florkowski
  • All resonance decays included, simple
    description of freeze-out

P. Bozek, M. Michalec, A. Baran, M. Chojnacki,
B. Biedron
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Spectra of hyperons
(predictions compared to STAR)
22
Pion pair distribution in invariant mass M
(WBWF Brigitte Hiller), compared to STAR
plot by P. Fachini
23
Charge balance function (WBWF Piotr Bozek) -
correlation measure of positive and negative
pions compared to the results of STAR
24
Topography of the fireball
ratio of protons to antiprotons
baryonic
strange
prepared by B. Biedron
25
Thermal description works remarkably!
Spectra at different rapidities compared to BRAHMS
26
by M. Chojnacki
27
9. The freeze-out curve
RHIC
QGP
HADRONS
adapted from F. Becattini
28
Phase diagram of hadronic matter
29
crossover
first-order transition
30
Phase diagram of water
31
10. Summary and outlook
  • sQGP - thermalized matter
  • freeze-out successful description of many
    phenomena
  • to come LHC an order of magnitude larger
    energies, RHIC at SPS energies, NA49 future,
    new facility at GSI low temperature and high
    density

32
BRAHMS _at_200GeV
  • Question on the nature of collision transition
    (Bjorken) or stopping and explosion (Landau)
  • No plateau in rapidity!

33
  • Search and investigation of the critical point in
    the QCD phase diagram
  • More precise scan at lower energies
  • RHIC overshoots (Gazdzicki plots)

34
  • Fundamental theoretical question what makes QGP
    sQGP?
  • What happens in the earliest phase?
  • Correlation studies, HBT, event-by-event
    fluctuations cluster picture of
    fireball

WB, B. Hiller, W. Florkowski, P. Bozek
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