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QCD Matter within Quasiparticle Model & CEP B. Kämpfer Research Center Rossendorf/Dresden Technical University Dresden with M. Bluhm, R. Schulze, D. Seipt,

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Presentation on theme: "QCD Matter within Quasiparticle Model & CEP B. Kämpfer Research Center Rossendorf/Dresden Technical University Dresden with M. Bluhm, R. Schulze, D. Seipt,"— Presentation transcript:

1 QCD Matter within Quasiparticle Model & CEP B. Kämpfer Research Center Rossendorf/Dresden Technical University Dresden with M. Bluhm, R. Schulze, D. Seipt, supported by BMBF, GSI, EU -- Lattice QCD & Quasiparticle Model -- Toy Models for CEP -- EoS and v2 for RHIC (3D Ising) (open charm does not flow)

2 Lattice QCD Results 1. Phase Boundary 2. EoS = 0

3 Quasiparticle Model lattice effective1-loop selfenergies stat. + thermo.consist.

4 Bielefeld-Swansea data c0 c2 c4 c6 phase transition

5 c2  QPM  susceptibility peak: crit. behavior

6 Isentropic Expansion RHIC-130 SPS-158 chemical freeze-out: T, muB  s/n

7 Including the CEP 1. ) (T,(r,h) 2. h r T kink in div. of

8 3. Singular Part of EoS: Parametric Form 3D Ising Model Guida+Zinn-Justin r h

9 Toy Model I: smooth reg. EoS 1. 2. critical curve 3. CEP: additional information Allton et al. 2002170 MeV

10 CEP: Attractor - Repulsor no focusing effect Wambach et al. unphysical CEP

11 Barz, Kämpfer, Csernai, Lukacs PLB 1984 A Funnel Effect due to Phase Transition? 1D Hydro & relaxation time approx. focusing effect squeezing of chem. freeze-out points

12

13 Toy Model II: 2-Phase Ansatz Nonaka, Asakawa (2004) critical curve: given

14 Toy Model III: QPM & CEP

15 Need of Modifying lQCD by CEP? Conjecture: hydro evolution of v2, pT at RHIC does not feel CEP using P. Kolbs code + init.parameters Kolb-Rapp off-equilibrium hadron EoS with U. Heinz/Ohio

16 High Density EoS : bag model x Progress of lQCD: High-density part fixed Progress of lQCD: Low-density part fixed tiny baryon density effects (=resonance gas: Redlich) QPM(1.0) QPM(2.0)

17 Strange Baryons data disfavor phase transition Huovinen 2005: opposite conclusion

18 non-hydro behavior of open charm? D MesonsMeson or K?

19 Summary & Outlook -- Lattice QCD vs. Quasiparticle Model: perfect description of either p(T,0) or p(T,mu) consistency of chem.freeze-out and isentropes -- Toy models for including CEP: many free parameters, size of critical region = ? lattice QCD + CEP = ? -- v2 hydro: RHIC: EoS at Tc does not matter much D does not participate in hydro flow -- CERN-SPS – CBM-FAIR: very different

20 Relativistic Hydro Init. Conds.: b dependent profiles from wounded nucleon & binary collisions s < 110 fm-3, nB < 0.4 fm-3: RHIC200 Freeze-out: Cooper-Frye, T = 100 MeV Kolb-Rapp off-equilibrium EoS: p(e,nB), T(e,nB), muB(e,nB) P. Kolb et al. with U. Heinz/Ohio

21 Interpolation is Better than Extrapolation lQCD lQCD/res.gas/KR * V2: weak dependence on EoS

22

23 S. Wheaton: s(T,muB) res. gas

24 c0 c2 c4 c6/c4 nF=2+1 nF=2 Bielefeld-Swansea data

25 w/o CEP

26 The 10% Problem c0 c2  c0

27 (r,h) (R, ) h=const r=const R=const 0=const

28 Weak Dependence of v2 on EoS

29 Scaling

30

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