elliptic and radial flow in high energetic nuclear collisions
DESCRIPTION
Elliptic and Radial Flow in High Energetic Nuclear Collisions. Marcus Bleicher (& Xianglei Zhu) Institut für Theoretische Physik Goethe Universität Frankfurt Germany. Thanks to. Elena Bratkovskaya Sascha Vogel Stephane Haussler Hannah Petersen Diana Schumacher Nu Xu. - PowerPoint PPT PresentationTRANSCRIPT
Marcus Bleicher, ISMD 2005
Elliptic and Radial Flow in High Energetic Nuclear Collisions
Marcus Bleicher (& Xianglei Zhu)
Institut für Theoretische Physik
Goethe Universität Frankfurt
Germany
Marcus Bleicher, ISMD 2005
Thanks to
• Elena Bratkovskaya
• Sascha Vogel
• Stephane Haussler
• Hannah Petersen
• Diana Schumacher
• Nu Xu
Marcus Bleicher, ISMD 2005
The tool: UrQMDv2.2
• Non-equilibrium transport model• Hadrons and resonances• String excitation and fragmentation• Cross sections are parameterized
via AQM or calculated by detailed balance• pQCD hard scattering at high energies
• Generates full space-time dynamics of hadrons and strings
Marcus Bleicher, ISMD 2005
Transverse Momentum Distributions: Proton-Proton
• PP works well
• pQCD needed at RHIC
• PYTHIA included in
UrQMD 2.x and HSD
Marcus Bleicher, ISMD 2005
Proton-Nucleus
• pA is well under control
• CC and SiSi are also under control
• What about AA?
Inv.
slo
pe
System size
Marcus Bleicher, ISMD 2005
Transverse mass spectra
• Standard UrQMD and HSD underestimate the data
• Additional resonances of 2-3 GeV mass may improve the description
mt-m0
Marcus Bleicher, ISMD 2005
Inverse slope systematics
• ‘Step’ claimed to be signature of QGP onset (Gazdzicki) • High mass resonances improve the description at low and high energies
• How can we test those scenarios?
use v2 to disentangle early and late stage
E_CM (AGeV)
Marcus Bleicher, ISMD 2005
Anisotropic flow
i Ri 1t t t t
2 2t x y
dN 1 dN1 2v cos(i( ))
p dp dyd 2 p dp dy
p p p
Fourier expansion of the transverseangular distribution of the emitted particles:
v1– directed flowV2 -- elliptic flow
Reaction PlaneReaction Planecos( ( ))n Rv n
Marcus Bleicher, ISMD 2005
Elliptic flow
y
x
py
px
coordinate-space-anisotropy momentum-space-anisotropy
y 2 x 2y 2 x 2
v2 cos2 , tan 1(pypx)
1) V2 of low pt particles is the good measure the EOS of the fireball in the early stage.
2) V2 of high pt particles is the good measure of jet energy loss through the medium.
Marcus Bleicher, ISMD 2005
Hints from elliptic flow
• High mass resonances can not explain scaled v2 above 40 AGeV
• Data shows saturation of scaled v2
• Strong hint for large pressure and short mean free paths in the early stage of the reaction already from 30 AGeV on !
Data for h-
Marcus Bleicher, ISMD 2005
‘Partonic’ dof already atlow SPS energy
•Breakdown of v2/<pt> scaling in model coincides with onset of ‘partonic’ matter
signals onset of change of EoS in the early stage
Marcus Bleicher, ISMD 2005
V2 at RHIC
• Magnitude of v2 is large
• Meson-baryon ordering
• Constituent quark scaling
• Decrease of v2 at high pt
Are these unique QGP signatures?
Marcus Bleicher, ISMD 2005
Elliptic flow: Centrality dependence
• Integral flow
V2 from UrQMD is about 50% smaller than the data,Left space for parton rescattering?
STAR data is from nucl-ex/0409033
Marcus Bleicher, ISMD 2005
Cumulant method results• Integral flow In the most central bin:
The fluctuations give larger v2{6} but smaller v2{4}
In the very peripheral bins:The fluctuations give larger v2{6} and v2{4}
Agree with the prediction of MCG model
BUT:In the semi-central bins:the v2 fluctuations can be neglected.
In the most central bin:The fluctuations give larger v2{6} but smaller v2{4}
In the very peripheral bins:The fluctuations give larger v2{6} and v2{4}
Agree with the prediction of MCG model
BUT:In the semi-central bins:the v2 fluctuations can be neglected.
Marcus Bleicher, ISMD 2005
Cumulant method results
• Comparison to STAR data Good agreement of
the ratios with STAR data.
Decrease of g2 at peripheral bins are also reproduced.(the g2 decrease is possibly from the v2 fluctuations)
Good agreement of the ratios with STAR data.
Decrease of g2 at peripheral bins are also reproduced.(the g2 decrease is possibly from the v2 fluctuations)
Marcus Bleicher, ISMD 2005
Cumulant method results• Differential flow
At large eta, the non-flow effects are less obvious. If the v2 fluctuations are also negligible to the cumulant method, the v2{2}, v2{4} and v2{6} should all agree with the exact v2.
At large eta, the non-flow effects are less obvious. If the v2 fluctuations are also negligible to the cumulant method, the v2{2}, v2{4} and v2{6} should all agree with the exact v2.
Marcus Bleicher, ISMD 2005
Cumulant method results• Differential flow
v2{2} is heavily affected by the non-flow effects especially at large pt.
The non-flow effects have been eliminated in v2{4} and v2{6}. But v2{4} is still a little larger than the exact v2.
v2{2} is heavily affected by the non-flow effects especially at large pt.
The non-flow effects have been eliminated in v2{4} and v2{6}. But v2{4} is still a little larger than the exact v2.
Marcus Bleicher, ISMD 2005
V2(pt) from UrQMD
Red--Mesons
Blue-Baryons
1) Clear separation of meson and baryon v22) Low pt, v2(meson)>v2(baryon)3) High pt, v2(m)<v2(b)4) The v2’s of multi-strange baryons are comparable to light baryons
1) Clear separation of meson and baryon v22) Low pt, v2(meson)>v2(baryon)3) High pt, v2(m)<v2(b)4) The v2’s of multi-strange baryons are comparable to light baryons
Marcus Bleicher, ISMD 2005
NCQ-scaling
NCQ-scaling of v2 is roughly reproduced in UrQMD!NCQ-scaling of v2 is roughly reproduced in UrQMD!
Note:multi-strange baryons follow the normal matter
Marcus Bleicher, ISMD 2005
Summary
At RHIC (transport models w/ strings and hadrons):
Part of v2 might also come from hadronic stage
Mass ordering is correct
Constituent quark scaling (w/o ReCo!)
non-flow correlations are correct
However, transport models w/o QGP produce to few pressure in the early stage above 30 GeV