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Hot 1-2 Loop QCD*** B. Kämpfer Research Center Dresden-Rossendorf Technical University Dresden ***: M. Bluhm, R. Schulze, D. Seipt real, purely imaginary.

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Presentation on theme: "Hot 1-2 Loop QCD*** B. Kämpfer Research Center Dresden-Rossendorf Technical University Dresden ***: M. Bluhm, R. Schulze, D. Seipt real, purely imaginary."— Presentation transcript:

1 Hot 1-2 Loop QCD*** B. Kämpfer Research Center Dresden-Rossendorf Technical University Dresden ***: M. Bluhm, R. Schulze, D. Seipt real, purely imaginary G^2 HTL QPM  eQPM vs. lattice QCD 100 MeV – 100 GeV

2 hadrons quarks & gluons LHCRHIC SPS AGS SIS universe Andronic, PBM, Stachel: *

3 HTL QPM symmetry preserving appoximations: CJT

4 2-Loop Approximation  1-loop self-energies + HTL self-energies  gauge invariance

5 Karsch et al. Λ

6

7 Non-Zero Mu flow equation now forbidden p = 0 R. Schulze

8 Rapidly Rotating Quark Stars with R. Meinel, D. Petroff, C. Teichmuller (Univ. Jena) exact (numerical) solution of Einstein equation (axisymmetry & stationarity)  free boundary problem shedding limit: kinky edge Tc matters Down to T = 0

9 HTL QPM  eQPM neglect small contributions  eQPM collect. modes + Landau + asympt. disp. relations, 2+1

10 Purely Imaginary Mu M.P. Lombardo et al. polyn. cont. Roberge-Weiss Z3 symmetry T=3.5,2.5,1.5,1.1 Tc Nf = 4 cont. to real mu: M.Bluhm

11 Going to High Temperatures Boyd et al. Fodor et al. Aoki et al. region of fit M.Bluhm

12 Susceptibilities: Test of Mu Dependence data: Allton et al., Nf = 2  10% problem

13 data: Allton et al., Nf = 2

14 also good agreement with Gavai-Gupta data for sensible test of flow eq. & baryon charge carriers (no di-quarks etc. needed)

15 Examples of Side Conditions T = 1.1 Tc solid: pure Nf=2 quark matter, electr.neutr. dashed: Nf=2 quark matter + electrons in beta equilibrium d u e

16 Naive chiral extrapolation Cheng et al. Karsch et al. not really supported by 1-loop self-energies Pisarski formula for plasma frequency CFT 

17 Quark mass dependence of 1-loop self-energies dispersion relation gluonsplasmons Feynman gauge g = 0.3 g = 1 g = 3 G

18 quarksplasmino (2) dispersion relations g = 0.3 g = 1 g = 3

19 D. Seipt 2007: 1-loop self-energies with finite m_q HTL 1-loop asymptotic dispersion relations gauge dependence: Feynman = Coulomb asymptotically

20 Aoki Karsch Bernard 0.1 Bernard 0.2 RHIC Init.conds. Using the EoS Nf = 2 +1

21 A Family of EoS‘s QPM lin.interpol. * fix + + + interpolation is better than extrapolation sound waves

22 Hydro for RHIC Using the EoS Family within Kolb-Heinz Hydro Package sensitivity to EoS near Tc (cf. Huovinen)

23 LHC Predictions smaller v2

24 Towards CBM @ FAIR: CEP 3 D Ising model

25 Conclusions 2-loop Γ+ HTL + g  G: - good fits of EoS - small contributions of plasmon, plasmino, Landau damp. effective QPM: only T gluons + quarks, simpl. disp. rel. - imaginary mu - high T - susceptibilities - useable EoS for RHIC + LHC elementary excitations in QGP = ? lattice QCD  spectral functions, propagators (transport coefficients)

26

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