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J/ y s in Hot Nuclear Matter at PHENIX
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Transcript of J/ y s in Hot Nuclear Matter at PHENIX
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J/ys in Hot Nuclear Matter at PHENIXMatthew Wysocki, University of Coloradofor the PHENIX CollaborationOctober 25, 2008
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M. Wysocki - DNP2008 2
IntroductionMatsui & Satz showed that in a medium of high enough temperature we can expect the J/y to be Debye-screened away. This led to J/y suppression being considered a “smoking gun” signature of the QGP.
Today there are many competing effects that must be accounted for, including CNM effects as in the previous talk, and hot nuclear matter effects such as recombination and lack of feed-down from other suppressed charmonia.
10/25/08
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M. Wysocki - DNP2008 3
Suppression and RAA
Take the yields from nuclear collisions and divide by p+p yields, scaled by the appropriate number of binary collisions (Ncoll).
Deviations from unity should first be compared to CNM effects. Any remaining suppression can be attributed to the deconfined medium (QGP).
10/25/08
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J/y Suppression vs. Centrality
10/25/08 M. Wysocki - DNP2008
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M. Wysocki - DNP2008 5
Suppression in 200GeV Au+Au
J/y production is suppressed in more central collisions.
The suppression is larger at forward rapidities than mid-rapidity.
Contrary to what we might expect due to local energy-density arguments.
10/25/08
nucl-ex/0611020Phys. Rev. Lett. 98 (2007) 232301
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M. Wysocki - DNP2008 6
Suppression in 200GeV Cu+Cu
Run 5 Cu+Cu J/y results available at arXiv:0801.0220 and is Phys. Rev. Lett. 101, 122301 (2008).
Cu+Cu RAA is in line with CNM projections from d+Au (central lines in panels a & b).
10/25/08
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M. Wysocki - DNP2008 7
J/y Suppression vs. pT
10/25/08
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M. Wysocki - DNP2008 8
RAA vs. pT in Au+Au
No sign of extra suppression at high-pT here.
Error bars at higher pTs make it hard to determine whether trend is flat or increasing.
10/25/08
nucl-ex/0611020Phys. Rev. Lett. 98 (2007) 232301
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M. Wysocki - DNP2008 9
RAA vs. pT in Cu+CuBrand-spanking-new PHENIX points at pT > 4 GeV/c for J/y e+e-.
Would expect PHENIX points to be higher due todifferent centralities, but are in fact lower.
Consistent with an RAA
that is flat in pT.
10/25/08
0-60% cent
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M. Wysocki - DNP2008 10
Two-Component ModelIncludes direct (NN J/y) and coalescence contributions.
Coalescence mainly at low-pT and central collisions.
Leads to RAA that is flat or gradually decreases at high-pT.
Not ruled out by PHENIX data.
10/25/08
X. Zhao & R. Rapp, 0712.2407v3
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M. Wysocki - DNP2008 11
Hot Wind ModelUses AdS/CFT correspondence to model velocity-dependence of the screening length for heavy quarkonia.
Predicts a decrease of the J/y dissociation temperature at increasing pT.
Experimentally, this would lead to an increasing cutoff in pT where the J/y suppression quickly turns on as we go from central to peripheral collisions.
10/25/08
Liu, Rajagopal, Wiedemann, hep-ph/0607062v3
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M. Wysocki - DNP2008
Hot Wind ModelUses AdS/CFT correspondence to model velocity-dependence of the screening length for heavy quarkonia.
Predicts a decrease of the J/y dissociation temperature at increasing pT.
Experimentally, this would lead to an increasing cutoff in pT where the J/y suppression quickly turns on as we go from central to peripheral collisions.
10/25/08 11
From Taku Gunji’s QM2008 talk.
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M. Wysocki - DNP2008
SummaryPHENIX has measured J/y RAA as functions of Npart and pT in 200 GeV Au+Au and Cu+Cu collisions.
Suppression in central collisions.
RAA vs. pT now extends to 10GeV/c in Cu+Cu.
Large suppression seen at low-pT extends through 7GeV/c.
RAA is consistent with a flat function of pT in Cu+Cu collisions, and a flat or rising function in Au+Au.
Is not consistent with sharp increase in suppression at some pT, as in the “hot wind” model.
Two-component model not ruled out, but really must be compared at higher pT.
10/25/08 12