langevin + hydrodynamics approach to heavy quark diffusion in the qgp yukinao akamatsu tetsuo...
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Langevin + Hydrodynamics Langevin + Hydrodynamics Approach to Heavy Quark Approach to Heavy Quark Diffusion in the QGPDiffusion in the QGP
Yukinao Akamatsu
Tetsuo Hatsuda
Tetsufumi Hirano
(Univ. of Tokyo)
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2009/05/09Heavy Ion Café @Tokyo
Ref : Y.A., T.Hatsuda and T.Hirano, arXiv:0809.1499[hep-ph]
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Outline
• Introduction• Langevin + Hydro Model for
Heavy Quark• Numerical Calculations• Conclusions and Outlook
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Introduction0 0.6fm O(10) fm
CGC Glasma Hydrodynamics Hadron Rescattering Observed
Medium composed of light particles (u,d,s,g)
Others : jets, J/Psi, etc Heavy quarks (c,b) --- heavy compared to temperature tiny thermal pair creation no mutual interaction Good probe !
3
Local thermalization assumed
Strongly coupled QGP (sQGP) How can we probe ?
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Langevin + Hydro Model for Heavy Quark
1) Our model of HQ in medium
Relativistic Langevin equation
the only input, dimensionless
Assume isotropic Gaussian white noise
in the (local) rest frame of matterin the (local) rest frame of matter
2) Energy loss of heavy quarks
Weak coupling (pQCD)Poor convergence (Caron-Huot ‘08)
Strong coupling (SYM by AdS/CFT sQGP)N=4 SYM theory
pM
T
v
vT
Ng
dt
pd YM 2
2
22
12
),( 2 NNgYM
[ for naïve perturbation]4YMg
(Gubser ’06, Herzog et al. ’06, Teaney ’06)
“Translation” to sQGP 5.01.2 (Gubser ‘07)
tpD
P)(2
exp)(2
Satisfy fluctuation-dissipationtheorem
2.0~ (leading order)
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0 fm….
0.6 fm…
Little Bang
Initial Condition
Brownian Motion
Heavy Quark Spectra
Full 3D hydrodynamics
Electron Spectra + ….
T(x), u(x)
Local temperature and flow
(pp + Glauber)
(Hirano ’06)
c(b)→D(B)→e- +νe+π etc_
time
QG
P
Experiment
(PHENIX, STAR ’07)5
3) Heavy Quark Langevin + Hydro Model
O(10)fm…
generated by PYTHIA
(independent fragmentation)
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Numerical Calculations
Experimental result γ=1-3 AdS/CFT γ=2.1±0.5
Different freezeouts at 1st order P.T.
Bottom dominant
1) Nuclear Modification Factor
・ Initial (LO pQCD): good only at high pT
・ CNM, quark coalescence : tiny at high pT
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Poor statistics, but at least consistent with γ=1-3.(Still preliminary, PHENIX : v2~0.05-0.1 for pT~3-5GeV)
2) Elliptic Flow
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22 6.7 2.272 21 7.2
thermalized
not thermalized
2T
MHQ
Degree of HQ Thermalization
Experimental result γ=1-3 charm : nearly thermalized, bottom : not thermalized
Relaxation time
Stay time ]fm[43~ St
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3) Azimuthal Correlation
Observables : c, b D, B single electron, muon charged hadron
e-h, μ-h correlation : two peaks (near & away side)
e-μ correlation : one peak (away side only) no contribution from vector meson decay
Back to back correlation quenched & broadeneddiffusion
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electron - (charged) hadron correlation(e - π, K, p) = (trigger - associate)
Quenching of backward (0.5π-1.5π) signal QBS
)0(
)()(
A
AQBS
・ More quenching & broadening with larger γ・ Mach cone : not included
ZYAMZYAM
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electron - muon correlation(trigger - associate)
Quenching of backward (0-2π) signal QBS
・ High pT associate : energy loss・ Low pT associate : fluctuation
・ Energy loss quenching・ Fluctuation broadening
・ More quenching & broadening with larger γ
electron, muon : mid-rapidity (< 1.0)
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electron - muon correlation
electron : mid pseudo-rapidity (< 0.35)muon : forward pseudo-rapidity (1.4~2.1)
(trigger - associate)
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• Heavy quark can be described by relativistic Langevin dynamics with a drag parameter predicted by AdS/CFT (for RAA).
• V2 has large statistical error. But at least consistent.• Heavy quark correlations in terms of lepton-hadron,
electron-muon correlations are sensitive to drag parameter.
• Possible update forinitial distribution with FONLL pQCDquark coalescence, CNM effects, ・・・
Conclusions and OutlookY. Morino (PhD Thesis)arXiv:0903.3504 [nucl-ex](Fig.7.12)
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Backup
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Weak coupling calculations for HQ energy loss
RHIC, LHC
γ~0.2
γ~2.5
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Fluctuation-dissipation theorem
Ito discretization Fokker Planck equation
tpppMTp
txpPpDp
ppp
txpPxE
p
t
)()(
),,()(2
1)(
),,(
2
TMpPeq22exp
)(2
)(
2
)(
)(
)()(
3
2
TEM
TpD
ET
pD
pd
pdDp
Generalized FD theorem
A Little More on Langevin HQ
tpD
P)(2
exp)(2
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Initial condition
available only spectral shape above pT ~ 3GeV
<HQ in pp><decayed electron in pp>
No nuclear matter effects in initial conditionNo quark coalescence effects in hadronization
Where to stop in mixed phase at 1st order P.T. 3 choices (no/half/full mixed phase)
Reliable at high pT
17f0=1.0/0.5/0.0
Notes in our model
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Numerical calculations for HQ
Nuclear Modification Factor
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γ=30 : Surface emission dominates at high pT
only at low pT
Elliptic Flow
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Subtlety of outside production
proportion of ts=0 for pT>5GeV
Gamma=0.3_ccbar: 1.2% Gamma=0.3_bbbar: 0.70%Gamma=1_ccbar: 4.2% Gamma=1_bbbar: 0.93%Gamma=3_ccbar: 25% Gamma=3_bbbar: 2.2%Gamma=10_ccbar: 68% Gamma=10_bbbar: 15%Gamma=30_ccbar: 90% Gamma=30_bbbar: 46%
Gamma=0.3_eb: 0.75%Gamma=0.3_mb: 0.97%Gamma=1_eb: 1.7%Gamma=1_mb: 2.0%Gamma=3_eb: 5.3%Gamma=3_mb: 5.1%Gamma=10_eb: 31%Gamma=10_mb: 30%
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DEFINITION VALUE
Stay time ts=Σ Δt|FRF 3-4 [fm]
Temperature T=Σ(TΔt|FRF) / ts ~210 [MeV]
22 6.7 2.272 21 7.2
For γ=0-30 and initial pT=0-10GeV
(T=210MeV)
thermalizednot thermalized
Time measured by a clock co-moving with fluid element
2T
MHQ
_
Degree of HQ Thermalization
Experimental result γ=1-3 charm : nearly thermalized, bottom : not thermalized
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QQbar Correlation
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Other numerical calculations
muon - (charged) hadron correlation
Quenching of backward (0.5π-1.5π) signal QBS