quark-gluon string model for pp collisions and femtoscopic correlations
DESCRIPTION
L. Bravina (UiO) , in collaboration with L. Malinina, M.S. Nilsson, E. Zabrodin. QUARK-GLUON STRING MODEL for pp collisions And FEMTOSCOPIC CORRELATIONS. WPCF2010, Kiev, Ukraine , 17.09.2010. This talk is devoted to the memory of Prof. Alexey Kaidalov who passed away 25.07.2010. - PowerPoint PPT PresentationTRANSCRIPT
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L. Bravina (UiO), in collaboration with
L. Malinina, M.S. Nilsson, E. Zabrodin
WPCF2010, Kiev, Ukraine, 17.09.2010 WPCF2010, Kiev, Ukraine, 17.09.2010
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This talk is devoted to the memory ofProf. Alexey Kaidalov who passed away
25.07.2010
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1. Gluon shadowing
2. Elliptic flow
3. HYDJET++
4. Freeze-out
5. HBT correlations
6. Equation of State
7. Predictions for pp
8. Flow in pp 9. Di-hadron azimuthal correl. …
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QGSM PREDICTIONS FOR PP QGSM PREDICTIONS FOR PP AT LHCAT LHC
Gribov’s Reggeon Calculus + string phenomenologyGribov’s Reggeon Calculus + string phenomenology
At ultra-relativistic energies: multi-Pomeron scattering, single and double diffraction, and jets (hard Pomeron exchange)
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QGSM PREDICTIONS and QGSM PREDICTIONS and RESULTS FOR LHC RESULTS FOR LHC
Inelastic collisionsInelastic collisions
NSD collisionsNSD collisions
J.B
leib
el. L
.B. e
t al
., (w
ork
in p
rogr
ess)
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QGSM PREDICTIONS and QGSM PREDICTIONS and RESULTS FOR LHC RESULTS FOR LHC
Transverse momentum distributionsTransverse momentum distributions
J.B
leib
el, L
.B. e
t al
. (w
ork
in p
rogr
ess)
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QGSM PREDICTIONS and QGSM PREDICTIONS and RESULTS FOR LHC RESULTS FOR LHC
Transverse momentum distributionsTransverse momentum distributions
J.B
leib
el, L
.B. e
t al
. (w
ork
in p
rogr
ess)
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VIOLATION OF VIOLATION OF Extended Longitudinal Extended Longitudinal ScalingScaling IN HEAVY-ION COLLISIONS AT IN HEAVY-ION COLLISIONS AT LHC? LHC?
Statistical thermal model: ELS will be violated in A+A @ LHC. What about Statistical thermal model: ELS will be violated in A+A @ LHC. What about p+p ?p+p ?
J. Cleymans, J.Struempfer, L.Turko, PRC 78 (2008) 017901
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W. Busza, JPG 35 (2008) 044040 W. Busza, JPG 35 (2008) 044040
Example of extended longitudinal scaling in different reactions
e+e-
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PREDICTIONS FOR PP PREDICTIONS FOR PP @ LHC@ LHC
QGSM: extended longitudinal scaling in p+p collisions holdsQGSM: extended longitudinal scaling in p+p collisions holds
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QGSM PREDICTIONS and QGSM PREDICTIONS and RESULTS FOR LHC RESULTS FOR LHC
Multiplicity distributionsMultiplicity distributions
J.B
leib
el, L
.B. e
t al
. (w
ork
in p
rogr
ess)
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High-multiplicity tail High-multiplicity tail isis pushed up, whereas pushed up, whereas maximum of the maximum of the distribution is shifted distribution is shifted towards small values towards small values of of zz
At energies below 100 At energies below 100 GeV different GeV different contributions overlap contributions overlap strongly, whereas at strongly, whereas at higher energies – higher energies – more multi-string more multi-string processesprocesses
24
68
=> Enhancement of high multiplicitiesEnhancement of high multiplicities
VIOLATION OF KNO SCALING VIOLATION OF KNO SCALING AT LHCAT LHC
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QGSM PREDICTIONS and QGSM PREDICTIONS and RESULTS FOR LHC RESULTS FOR LHC
Violation of KNO scaling at LHCViolation of KNO scaling at LHC
J.B
leib
el, L
.B. e
t al
. (w
ork
in p
rogr
ess)
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QGSM: (14 TeV)
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QGSM:
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Important feature for (h)A+A collisions atultrarelativistic energies- shadowing
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heavy-ion collisions in each rescattering there is
a certain probability for particle production
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the projectile becomes large compared to the target
interacts simultaneously with the whole system effectively less interaction - shadowing dramatic change of space-time picture
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M.S. Nilsson (to be submitted)
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M.S. Nilsson , L. Malinina, L.B. et al. (to be submitted)
DetectorDetector
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M.S. Nilsson , L. Malinina, L.B. et al. (to be submitted)
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M.S. Nilsson , L. Malinina, L.B. et al. (to be submitted)
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Femtoscopy in pp at 200 GeV (STAR data)
Mt dependence (“x-p” correlations) in very small systems (pp, e+e-) isusually attributed to: -string fragmentation -resonance contribution -Heisenberg uncertainty -jets
All Kt(mt) dependences of correlation radii observed by STAR scale with pp (!?) alghoght the expected originsdriving these dependences are different.
ALICE didn't observed strong Ktdependence (!?)
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Kt-dependence of correlation radii pp at 200 GeV with QGSM
There is strong Kt dependence in QGSM. What is it's origin ? Resonances ? String fragmentation ?
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Source functions of ALL pions in different kT regionsin QGSM pp 200 GeV
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Source functions of direct pions and pions from different resonances in QGSM pp 200 GeV
Kt ~(0.15-0.25) GeV/c
Direct pions source size < 0.5 fm
ρ0 →π-π+ , ρ+ →π0π+
K*+→Kπ+
ω→π-π+π0 maximal source size
Interplay between contributions of different resonances and direct pions determine source size.
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Kt (GeV/c) (0.15-0.25) (0.25-0.35) (0.35-0.45) (0.45-0.6) direct pion 26.0 % 26 % 26 % 28 %
ρ0 →π-π+ , ρ+ →π0π+ 41.3 % 45.5 % 48.7 % 50.6 %
K*+→Kπ+ 12.8 % 12,0 % 10.9 % 9.6 %
ω→π-π+π0 12.3 % 10.5 % 8.9 % 7.5 %
η→π-π+π0 , η'→ηπ-π+ , Δ++ →pπ+ 7.6 % 6.0 % 5.5 % 4.3 %
Relative contribution of pions from ρ increases with kt, when the relative contribution of ω, K* falls. It leads to decrease of correlation radii with kt. But the source size is too large (blue squares on slide 2) !
Relative contributions of direct pions and pions from different resonances QGSM (1:3)
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Kt (GeV/c) (0.15-0.25) (0.25-0.35) (0.35-0.45) (0.45-0.6) direct pion 39 .2 % 40.7 % 43.1 % 46.7 %
ρ0 →π-π+ , ρ+ →π0π+ 33.7 % 36.0 % 37.3 % 37.1 %
K*+→Kπ+ 9.7% 8,9 % 7.9 % 6.8 %
ω→π-π+π0 10.3 % 8.7% 7.2 % 5.9 %
η→π-π+π0 , η'→ηπ-π+ , Δ++ →pπ+ 7.1 % 5.7% 5.5 % 3.5 %
Relative contribution of direct and pions from ρ increases with kt, when the relative contribution of ω, K* falls. It leads to decrease of correlation radii with kt. Decrease of ratio “pions from ρ to direct pions” leads to requested decrease of the correlation radii (green circles on slide 2).
Relative contributions of direct pions and pions from different resonances QGSM (1:1)
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Kt-dependence of correlation radii pp at 200 GeV/c with QGSM
There is strong Kt dependence in QGSM. One of it's origins are the resonances. String fragmenation ?
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Example of source function of pions from different processes QGSM pp 200 GeV
Relative contribution of pions from different processes determines the source size through the number of produced resonances. In one-pomeron exchange-process more resonances are produced, then in many-pomeron exchanges.
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Correlation radii pp at 900 GeV/c with QGSM
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Kt-dependence of correlation radii pp at 900 GeV/c with QGSM
Radii are almost the same as at 200 GeV/c
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QGSM shows smaller correlation radii then in experiment (red squares).What if we play with number of direct/rho here ?If we take only pions from the inelastic secondary interations and resonance decays (black points) the correlation radii drastically increase and become close to STAR experimental data
Kt-dependence of correlation radii AuAu at 200 GeV/c with QGSM
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Summary and outlookSummary and outlook• LHC is a LHC is a discovery machine discovery machine for both hard and soft for both hard and soft
physics in HI collisionsphysics in HI collisions• Event generators are an indispensable tool for planing Event generators are an indispensable tool for planing
the experiments and analysis of datathe experiments and analysis of data• => Further development of existing MC generators=> Further development of existing MC generators• HI theory groups in Oslo utilizes it to study : HI theory groups in Oslo utilizes it to study :
EOS, elliptic flow, EOS, elliptic flow, particle freeze-out, HBT correlations of unlike particle freeze-out, HBT correlations of unlike particles, particle-jet correlations, heavy quark particles, particle-jet correlations, heavy quark production in a large pT range, scaling properties …production in a large pT range, scaling properties …
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Back-up Slides
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8. Anisotropic flow in pp
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8. Anisotropic flow in pp
Fourie expansion of invariant cross section:
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8. Anisotropic flow in pp
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And connected with EOS and final state interactions.
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In Regge theory it appears as initial state effect and inversely proportional to the radius of the object: for pp it could be larger then for AA :
Anisotropic flows from initial state of a fast nucleus.K.G. Boreskov, A.B. Kaidalov, O.V. Kancheli, Eur.Phys.J.C58:445-453,2008.
In Gauss approximation
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8. Anisotropic flow in pp
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8. Anisotropic flow in ppEstimates of hadron azimuthal anisotropy from multiparton interactions in proton-proton collisions at sqrt(s) = 14 TeV. D. d'Enterria , G.Kh. Eyyubova, et al Eur.Phys.J.C66:173,2010.
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8. Anisotropic flow in pp
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W. Busza, JPG 35 (2008) 044040 W. Busza, JPG 35 (2008) 044040 UA5 Collab., Phys. Rep. 154 (1987) 247UA5 Collab., Phys. Rep. 154 (1987) 247
Charged particle pseudorapidity density at as a function of √s
Violation of Feynman scaling,but ext. long. scaling holds?!
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WHY SCALING HOLDS IN THE WHY SCALING HOLDS IN THE MODEL? MODEL?
In string models both In string models both FSFS and and ELS ELS holds in the fragmentation regionsholds in the fragmentation regions
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Particles are uncorrelated if
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VIOLATION OF KNO SCALINGVIOLATION OF KNO SCALING
A.B.Kaidalov, K.A.Ter-Martirosyan, PLB 117 (1982) 247A.B.Kaidalov, K.A.Ter-Martirosyan, PLB 117 (1982) 247 UA5 Collaboration, Phys. Rep. 154 (1987) 247UA5 Collaboration, Phys. Rep. 154 (1987) 247 N.S.Amelin, L.V.Bravina, Sov.J.Nucl.Phys. 51 (1990) 133 N.S.Amelin, L.V.Bravina, Sov.J.Nucl.Phys. 51 (1990) 133
√√ss
Charged-particle Charged-particle multiplicity distributions multiplicity distributions in the KNO variables in in the KNO variables in nondiffractive nondiffractive antiproton-proton antiproton-proton collisions at collisions at √s = 546 GeV √s = 546 GeV andand
53 GeV 53 GeV