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Collective Flow Effects and Energy Loss in ultrarelativistic Heavy Ion Collisions Zhe Xu USTC, Hefei, July 11, 2008 with A. El, O. Fochler, C. Greiner.

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Presentation on theme: "Collective Flow Effects and Energy Loss in ultrarelativistic Heavy Ion Collisions Zhe Xu USTC, Hefei, July 11, 2008 with A. El, O. Fochler, C. Greiner."— Presentation transcript:

1 Collective Flow Effects and Energy Loss in ultrarelativistic Heavy Ion Collisions Zhe Xu USTC, Hefei, July 11, 2008 with A. El, O. Fochler, C. Greiner and H. Stöcker

2 Zhe Xu Fast Thermalization from pQCD: 2-3 important Equilibr. time: 1 fm/c Elliptic flow v 2 : high in 2-3 Viscosity: small ~ 0.08 Hard probe: R AA ~ 0.1 collisional 2-2 vs. radiational 2-3 energy loss Motivation and Summary P.Huovinen et al., PLB 503, 58 (2001)

3 Zhe Xu Outline Transport model Results from simulations Analytical calculations

4 Zhe Xu BAMPS: B oltzmann A pproach of M ulti P arton S catterings A transport algorithm solving the Boltzmann-Equations for on-shell partons with pQCD interactions new development ggg gg (Z)MPC, VNI/BMS, AMPT, PACIAE Elastic scatterings are ineffective in thermalization ! Inelastic interactions are needed ! Transport Model

5 Zhe Xu Old collision algorithm BUT, difficult to 3  2 ! collision criterion: (ZPC, MPC, VNI/BMS, AMPT, PACIAE)

6 Zhe Xu Stochastic algorithm P.Danielewicz, G.F.Bertsch, Nucl. Phys. A 533, 712(1991) A.Lang et al., J. Comp. Phys. 106, 391(1993) 3x3x collision rate per unit phase space for incoming particles p 1 and p 2 with  3 p 1 and  3 p 2 : collision probability (Monte Carlo) Space has to be divided into small cells !

7 Zhe Xu ZX and C. Greiner, PRC 71, 064901 (2005) Interaction Probability

8 Zhe Xu J.F.Gunion, G.F.Bertsch, PRD 25, 746(1982) T.S.Biro at el., PRC 48, 1275 (1993) S.M.Wong, NPA 607, 442 (1996) screened partonic interactions in leading order pQCD screening mass: LPM suppression : the formation time  g : mean free path Gluons freeze out at local energy density = 1 GeV/fm 3.

9 Zhe Xu Results from the parton cascade BAMPS thermalization transverse energy elliptic flow shear viscosity jet quenching

10 Zhe Xu 3-2 + 2-3: thermalization! Hydrodynamic behavior! 2-2: NO thermalization simulation pQCD 2-2 + 2-3 + 3-2 simulation pQCD, only 2-2 at collision center: x T <1.5 fm,  z < 0.4 t fm of a central Au+Au at s 1/2 =200 GeV Initial conditions: minijets p T >1.4 GeV; coupling  s =0.3 p T spectra

11 Zhe Xu time scale of thermalization  = time scale of kinetic equilibration. Theoretical Result ! ZX and C. Greiner, PRC 76, 024911 (2007)

12 Zhe Xu total transverse energy per rapidity at midrapidity y=0

13 Zhe Xu Rapidity dependence of total transverse energy ZX, Greiner, Stöcker, arXiv: 0711.0961 [nucl-th]

14 Zhe Xu Elliptic Flow and Shear Viscosity in 2-3 at RHIC 2-3 Parton cascade BAMPS ZX, Greiner, Stöcker, arXiv: 0711.0961 [nucl-th] viscous hydro. Romatschke, PRL 99, 172301,2007  /s at RHIC > 0.08

15 Zhe Xu Rapidity Dependence of v 2 : Importance of 2-3! BAMPS ZX,G,S

16 Zhe Xu first realistic 3d results on jet-quenching with BAMPS dE/dx, static medium (T = 400 MeV) R AA ~ 0.1 cf. S. Wicks et al. Nucl.Phys.A784, 426 central (b=0 fm) Au-Au at 200 AGeV O. Fochler 2-3 2-2

17 Zhe Xu Inelastic pQCD interactions (23+32) explain: Fast Thermalization Large Collective Flow Small shear Viscosity of QCD matter at RHIC Part of energy loss (for very high energy parton collisional energy loss due to 2-2 dominates.)

18 Zhe Xu Analytical Calculations for a Gluon Gas

19 Zhe Xu J.F.Gunion, G.F.Bertsch, PRD 25, 746(1982) T.S.Biro at el., PRC 48, 1275 (1993) S.M.Wong, NPA 607, 442 (1996) screened partonic interactions in leading order pQCD screening mass: LPM suppression : the formation time  g : mean free path

20 Zhe Xu Cross section does not determine  ! Collision Rate

21 Zhe Xu gg  gg: small-angle scatterings gg  ggg: large-angle bremsstrahlung distribution of collision angles at RHIC energies

22 Zhe Xu BUT, this is not the full story !

23 Zhe Xu Transport Rates ZX and C. Greiner, PRC 76, 024911 (2007) Transport rate is the correct quantity describing kinetic equilibration. Transport collision rates have an indirect relationship to the collision-angle distribution. assume

24 Zhe Xu Transport Rates Large Effect of gg->ggg !

25 Zhe Xu From Navier-Stokes approximation From Boltzmann-Eq. relation between  and R tr Shear Viscosity 

26 Zhe Xu Ratio of shear viscosity to entropy density in 2-3 AdS/CFT RHIC ZX and C.Greiner, PRL 100, 172301, 2008; arXiv: 0710.5719 [nucl-th].

27 Zhe Xu Elliptic Flow and Shear Viscosity in 2-3 at RHIC 2-3 Parton cascade BAMPS ZX, Greiner, Stöcker, arXiv: 0711.0961 [nucl-th] viscous hydro. Romatschke, PRL 99, 172301,2007  /s at RHIC > 0.08

28 Zhe Xu Inelastic pQCD interactions (23 + 32) explain: Fast Thermalization Large Collective Flow Small shear Viscosity of QCD matter at RHIC Part of energy loss (for very high energy parton collisional energy loss due to 2-2 dominates.) Initial conditions, hadronization and afterburning determine how imperfect the QGP at RHIC & LHC can be. Conclusion

29 Zhe Xu Initial conditions in heavy ion collisions Glauber-type: Woods-Saxon profile, binary nucleon-nucleon collision for a central Au+Au collision at RHIC at 200 AGeV using p 0 =1.4 GeV minijets production with p t > p 0

30 Zhe Xu

31 The drift term is large. gg  ggg interactions are essential for kinetic equilibration!

32 Zhe Xu A,El, ZX and C.Greiner, arXiv: 0712.3734 [hep-ph], published in NPA ggg gg ! This 3-2 is missing in the Bottom-Up scenario (Baier et al.). Initial conditions: Color Glass Condensate Q s =3 GeV; coupling  s =0.3 p T spectra

33 Zhe Xu due to the fact that a 2->3 process brings one more particle toward isotropy than a gg->gg process.

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