Particle Production and Correlation from the Recombination Model

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Presentation transcript:

Particle Production and Correlation from the Recombination Model C.B. Yang CCNU ,Wuhan, China PRC81, 024908 (2010)

Outline Data and our motivation Quark recombination model Scaling of dynamical path length dis Particle spectrum Correlations in jet Discussion

PHENIX

PHENIX

Our aim Find simplifying features of the data Relation with nuclear geometry Dynamical hadronization mechanism New understanding of the data Implications for LHC/ALICE

Recombination models Hadrons formed by combining two (three) constituent quarks Combining probabilities, determined by wave functions, called the recombination functions There are soft and hard partons Hard parton will lose energy in traversing the medium There are different implementations Hard partons evolve into semi-hard showers

Relevant partonic and hadronic variables Position of hard scattering can be different Hard momentum k=k’ fluctuates

Hadronization dynamics, independent of centrality and azimuthal angle

Degraded parton distribution Weight for each point (Geometry) Hard parton energy loss (model) depending on the traversed length

Last equation can be rewritten as ξcalled dynamical length

Dynamical path length distribution ω=4.6

Scaling dynamical path length distribution!

Scaling of RAA (Theoretical results)

RAA vs NP (Th vs Data) γ=0.11

if with scaling, one gets RAA scaling

Back-to-Back Jets Hadronization dynamics

C=0.05,φ=π/24

Boundary of last plot

2d path length dis is of scaling

Yield per trigger

Trigger-normalized FF Data: 8GeV/c<pt<16GeV/c, 0-10%

Two-jet recombination at LHC At LHC/ALICE, # of init hard partons is huge They may overlap in space-time Huge p/π ratio New signal?

Two-jet overlap probability Γ

Discussions RAA at large pT depend on Scaling of RAA seen at RHIC b and φdependence of RAA encoded in mean path length Yield per trigger depends on ξ-bar universally At LHC, RAA can be huge and its scaling may be violated due to overlap of two-jets Can be checked easily!

Thank you!