fast generators of direct photons
DESCRIPTION
Fast generators of direct photons. Sergey Kiselev, ITEP, Moscow Introduction Prompt photons Thermal photons in 1+1 hydrodynamics Hot Hadron Gas (HHG) scenario Qurk Gluon Plasma (QGP) scenario Summary. Introduction - definitions. Direct photons : not from hadron decays - PowerPoint PPT PresentationTRANSCRIPT
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29.09.08 Baldin ISHEPP XIX, Dubna S.Kiselev 1
Fast generators of direct photons
Sergey Kiselev, ITEP, Moscow Introduction Prompt photons Thermal photons in 1+1 hydrodynamics
Hot Hadron Gas (HHG) scenario Qurk Gluon Plasma (QGP) scenario
Summary
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29.09.08 Baldin ISHEPP XIX, Dubna S.Kiselev 2
Introduction - definitions
Direct photons: not from hadron decays Quark gluon level:
qq gγ, qg qγ, qq(g) qq(g)γ.
Initial hard NN collisions, pQCD prompt γ Thermalised QGP stage thermal γ from QGP.
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Introduction – definitions
Hadron level: meson scatterings: ππ ργ, πρ πγ, πK K* γ, Kρ
Kγ, KK* πγ, πK* Kγ, . . . Thermalised hadron stage thermal γ from HHG
Decay photons: Long lived (c » cAB ~ 50-100 fm)
π0 γγ, γγ, ’ ργ/ωγ/2γ Shot lived (c cAB ~ 50-100 fm)
ω πγ, ρ ππγ, a1 πγ, Δ Nγ, K* Kγ, γ, . . . In the dense nuclear matter can not be reconstructed in an experiment direct photons
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Prompt photons: pp data fit + binary scaling
PHENIX hep-ph/0609037
(√s)5 Ed3σ/d3p = F(xT,y) One can use a data tabulation of the
F(xT,y) to generate prompt photons.
A+B:
Ed3N/d3p(b)=
Ed3σpp/d3p AB TAB(b)=
Ed3σpp/d3p Ncoll(b)/σppin
Nuclear effects (Cronin, quenching, …) are not taken into account.
Realization: GePP.C macros for the ROOT package (http://root.cern.ch)
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GePP: resultsComparison with RHIC data Prediction for LHC
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Bjorken -(1+1)-HydroDynamics (BHD)
Proper time and rapidity y Phys.Rev.D27(1983)140
There is no dependence onLorenz boost variable y:
Landau hydrodynamical model, viscosity and conductivity are neglected
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Photon spectrum in BHDPhoton spectra follow from convoluting the photon production rates with the space–time evolutionFor a longitudinally expanding cylinder
For proper time and rapidity y`
For an ideal gasMain parameters: initial 0 , T0 and Tf (at freeze-out)
Connection with the local rest frame
Input function – production rate E dN/d4xd3p (E,T)
Phys.Rep.364(2002)98
0 ↔ yield, T0 ↔ spectrum slopeTf ↔ weak sensitivity, Tf = 100 MeV
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HHG scenario
C.Song, Phys.Rev.C47(1993)2861 an effective chiral Lagrangian with π, ρ and a1 mesons to calculate the processes ππ →ργ , πρ → πγ, and ρ →ππγ .
C.Song and G.Fai, Phys.Rev.C58(1998)1689.
parameterizations for photon rates.
Realization: GeTP_HHG.C macros for ROOT
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GeTP_HHG: SPS and RHIC dataSPS RHIC
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one can fit SPS data at high pt
one can fit RHIC data but with not reasonable parameters
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GeTP_HHG: prediction for LHC
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GeTP_HHG: sensitivity to the parameters
sensitivity to T0 sensitivity to Tf
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QGP scenario: QGP and HHG phasesQGP: ideal massless parton gas (µq =0) HHG: ideal massless pion gas
First order phase transition at critical temperature Tc
B bag constant
Nc colorsNf flavors
g number of degrees of freedom
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QGP scenario: mixed phase
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Mixed phase
Additional parameters: Tc and gh Tc =170 MeV, gh = 8 (to fit SPS data)
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Rates from QGP -1st order
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Perturbative thermal QCD applyingHard Thermal Loop (HTL) resummation
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Rates from QGP -2nd order
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Thermal photon production in the QGP is a non-perturbative mechanism that can not be accessed in perturbative HTL resummed thermal field theory
2-loop contribution is the same order in αs
3-loop ….
One must consider the QGP rates as an educated guess. PL B510(2001)98
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Rates from QGP
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Annihilation with scattering (aws) dominates at high E
The Landau-Pomeranchuk-Migdal (LPM) effect (not taken into account in out study) reduces the 2-loop rates by ~30% in E/T > 1
Realization: GeTP_QGP.C macros for ROOT
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Rates: QGP vs HHG
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Steeper spectra from QGP
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GeTP_QGP: SPS and RHIC dataSPS RHIC
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GeTP_QGP: comparison with 2+1 hydro
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D. d’Enterria and D. Peressounko, Eur. Phys. J. C 46, 451 (2006)
The same τ0 , T0: steeper HHG spectrum in 1+1 due to radial flow in 2+1
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GeTP_QGP: prediction for LHC
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2+1 hydro, F.Arleo, D. d’Enterria, D. Peressounko, nucl-th/0707.2357
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GeTP_QGP: dNγ/dy and …
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Contribution of the QGP phases into dN/dy: ~ 10%INIT CPU – CPU for initialization
√s GeV
T0
MeVτ0
fm/c τc
q fm/c
τch
fm/c τf
fm/cdNγ/dy INIT
CPU
17 340 0.20 1.6 9.5 46.7 14 110 s
200 430 0.15 2.4 14.4 70.8 31 160 s
5500 650 0.10 5.6 33.2 163 173 390 s
Tc = 170 MeV, gh = 8, Tf = 100 MeV
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Summary
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• 3 fast generators of direct photons have been proposed: - GePP.C – prompt photons (pp data fit + binary scaling) - GeTP_HHG.C – thermal photons in the HHG scenario - GeTP_QGP.C – thermal photons in the QGP scenario in Bjorken (1+1) hydrodynamics other assumptions: ideal massless gas, µq =0, 1st order phase transition, QGP rates – educated guess• One can fit SPS and RHIC data• Predictions for LHC• GePP.C, GeTP_HHG.C have been implemented, thanks to Ludmila Malinina, into the FASTMC code of the UHKM package (http://uhkm.jinr.ru).