GFAL JAVA API Diego Scardaci INFN – Catania Catania, JRA1 All-Hands meeting 7-9 March 2007 dio id
University of Catania INFN-LNS
description
Transcript of University of Catania INFN-LNS
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University of Catania University of Catania INFN-LNSINFN-LNS
Heavy flavor Suppression : Langevin vs Boltzmann
S. K. Das, F. Scardina V. Greco, S. Plumari
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Outline of our talk…………..
Introduction
Langevin Equation and the Thermalization Issue
Boltzmann Equation and the Thermalization Issue
Nuclear Suppression: Langevin vs Boltzmann
Summary and outlook
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At very high temperature and density hadrons melt to a new phase of matter called Quark Gluon Plasma (QGP).
Introduction
τ HQ > τLQ , τ HQ ~ (M/T) τLQ
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PHENIX: PRL98(2007)172301
Heavy flavor at RHIC
At RHIC energy heavy flavor suppression is similar to light flavor
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Heavy Flavors at LHC
Again at RHIC energy heavy flavor suppression is similar to light flavor
Is the HQ momentum transfer really small !
arXiv:1203.2160ALICE Collaboration
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Boltzmann Kinetic equation Boltzmann Kinetic equation
colt
fpxE
Pt tpxf
,,.F
pfkpkpfkkpkdt
ftpR
col
,,, 3
fpp
kkfp
kpfkpkpfkkpji
ji
2
2
1.),(,
kqkpqppqvqfqd
gkp ,,,3
3
)()2(
),(
is rate of collisions which change the momentum of the charmed quark from p
to p-k
fpBp
fpApt
fij
ji
i
i3
i k)k(pkdA ,
ji3
ij kk)k(pkdB ,
where we have defined the kernels , → Drag Coefficient
→ Diffusion Coefficient
B. Svetitsky PRD 37(1987)2484
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fpp
kkfp
kpfkpkpfkkpji
ji
2
2
1.),(,
Boltzmann EquationFokker Planck
It is interesting to study both the equation in a identical environment to ensure the validity of this assumption.
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Langevin Equation
kjkjj
j
dpptCdtdtpdp
dtE
pdxj
),(
is the deterministic friction (drag) force
ijC is stochastic force in terms of independent
Gaussian-normal distributed random variable
where
)( ,, zyx )2
exp(2
1)(
23
P,
With jkki tttt )()()(
12
1
0
the pre-point Ito
the mid-point Stratonovic-Fisk
the post-point Ito (or H¨anggi-Klimontovich)
interpretation of the momentum argument of the covariance matrix.
H. v. Hees and R. RapparXiv:0903.1096
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Langevin process defined like this is equivalent to the Fokker-Planck equation:
the covariance matrix is related to the diffusion matrix by
l
ijlkji p
CCpA
and
DBB 10With
Relativistic dissipation-fluctuation relation
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For Collision Process the Ai and Bij can be calculated as following :
ii
cpqqpi ppppqfqpqpM
E
pd
E
qd
E
qd
EA
)(21
2222222
1 442
3
3
3
3
3
3
jiij ppppB )(2
1
Elastic processes
gcgc
We have introduce a mass into the internal gluon propagator in the t and u-channel-exchange diagrams, to shield the infrared divergence.
B. Svetitsky PRD 37(1987)2484
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Thermalization in Langevin approach in a static medium
Case:11) D=Constant A= D/ET from FDT
Due to the collision charm approaches to thermal equilibrium with the bulk
Bulk composed only by gluon in Thermal equilibrium at T= 400
MeV.
We are solving Langevin Equation in a box.
1) Diffusion D=Constant Drag A= D/ET from FDT
2) Diffusion D=D(p) Drag A(p) =D(p)/ET
3) Diffusion D(p) Drag A(p): from FDT + derivative term
4) Diffusion D(p) and Drag A(p) both from pQCD
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Case:2
Diffusion coefficient: D(p) Drag coefficient: A(p)=D(p)/TE
In this case we are away from thermalization around 50-60 %
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Diffusion coefficient: D(p)
Drag coefficient: From FDT
with the derivative term
Case:3
Implementation of the derivative term improve the results. But still we are around 10 % away from the thermal equilibrium.
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Diffusion coefficient: D(p) pQCD
Drag coefficient: A(p) pQCD
Case: 4
In this case we are away from thermalization
around 40-50 %.
More realistic value of drag and diffusion
More we away from the thermalization !!!
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[VGreco et al PLB670, 325 (08)][ Z. Xhu, et al. PRC71(04)]
Transport theoryTransport theory
0t
03 xExact
solution
Collisions
Collision integral is solved with a local stochastic sampling
We consider two body collisions
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Cross Section gc -> gcCross Section gc -> gc
The infrared singularity is regularized
introducing a Debye-screaning-mass D
Dmtt
11Tm sD 4
[B. L. Combridge, Nucl. Phys. B151, 429 (1979)] [B. Svetitsky, Phys. Rev. D 37, 2484 (1988) ]
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Cross Section gc -> gcCross Section gc -> gc
The infrared singularity is regularized
introducing a Debye-screaning-mass D
Dmtt
11Tm sD 4
[B. L. Combridge, Nucl. Phys. B151, 429 (1979)] [B. Svetitsky, Phys. Rev. D 37, 2484 (1988) ]
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Charm evolution in a static mediumCharm evolution in a static mediumSimulations in which a particle
ensemble in a box evolves dynamicallyBulk composed only by gluons in
thermal equilibrium at T=400 MeV
C and C initially are distributed:
uniformily in r-space, while
in p-space
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Charm evolution in a static mediumCharm evolution in a static mediumSimulations in which a particle
ensemble in a box evolves dynamicallyBulk composed only by gluons in
thermal equilibrium at T=400 MeV
C and C initially are distributed:
uniformily in r-space, while
in p-space
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Charm evolution in a static mediumCharm evolution in a static mediumSimulations in which a particle
ensemble in a box evolves dynamicallyBulk composed only by gluons in
thermal equilibrium at T=400 MeV
C and C initially are distributed:
uniformily in r-space, while
in p-space
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Charm evolution in a static mediumCharm evolution in a static mediumSimulations in which a particle
ensemble in a box evolves dynamicallyBulk composed only by gluons in
thermal equilibrium at T=400 MeV
C and C initially are distributed:
uniformily in r-space, while
in p-space
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Charm evolution in a static mediumCharm evolution in a static mediumSimulations in which a particle
ensemble in a box evolves dynamicallyBulk composed only by gluons in
thermal equilibrium at T=400 MeV
C and C initially are distributed:
uniformily in r-space, while
in p-spaceDue to collisions
charm approaches to
thermal equilibrium with
the bulk
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Charm evolution in a static mediumCharm evolution in a static mediumSimulations in which a particle
ensemble in a box evolves dynamicallyBulk composed only by gluons in
thermal equilibrium at T=400 MeV
C and C initially are distributed:
uniformily in r-space, while
in p-spaceDue to collisions
charm approaches to
thermal equilibrium with
the bulk
fm
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Charm evolution in a static mediumCharm evolution in a static mediumSimulations in which a particle
ensemble in a box evolves dynamicallyBulk composed only by gluons in
thermal equilibrium at T=400 MeV
C and C initially are distributed:
uniformily in r-space, while
in p-spaceDue to collisions
charm approaches to
thermal equilibrium with
the bulk
fm
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Charm evolution in a static mediumCharm evolution in a static mediumSimulations in which a particle
ensemble in a box evolves dynamicallyBulk composed only by gluons in
thermal equilibrium at T=400 MeV
C and C initially are distributed:
uniformily in r-space, while
in p-spaceDue to collisions
charm approaches to
thermal equilibrium with
the bulk
fm
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Charm evolution in a static mediumCharm evolution in a static mediumSimulations in which a particle
ensemble in a box evolves dynamicallyBulk composed only by gluons in
thermal equilibrium at T=400 MeV
Due to collisions charm
approaches to thermal
equilibrium with the bulk
C and C initially are distributed:
uniformily in r-space, while
in p-space
fm
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Momentum transferMomentum transferDistribution of the squared momenta
transfer k2 for fixed momentum P of the charm
The momenta transfer of gg->gg and gc-> gc are not so different
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Boltzmann vs Langevin
Both drag and diffusion from pQCD
Langeven approaches thermalisation in a faster rate.
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Ratio between Langevin and Boltzmann At fixed time
A factor 2 difference
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Nuclear Suppression: Langevin vs Boltzmann
Suppression is more in Langevin approach than Boltzmann
input
outputAA
pddN
pddN
R
3
3
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Summary & Outlook ……Summary & Outlook …… Both Langevin and Boltzmann equation has been solved in a box for heavy quark propagating in a thermal bath composed of gluon at T= 400 MeV.
In Langevin approach it is difficult to achieve thermalization criteria for realistic value of drag and diffusion coefficients.
Boltzmann equation follow exact thermalization criteria.
It is found that charm quark momentum transfer is not very differ from light quark momentum transfer.
In Langevin case suppression is stronger than the Boltzmann case by a factor around 2 with increasing pT.
It seems Langevin approach may not be really appropriate to heavy flavor dynamics.
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