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J/  and  ’ Production in p+p, d+Au and A+A from PHENIX Melynda Brooks Los Alamos National Laboratory For the PHENIX Collaboration Melynda Brooks, LANL,

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Presentation on theme: "J/  and  ’ Production in p+p, d+Au and A+A from PHENIX Melynda Brooks Los Alamos National Laboratory For the PHENIX Collaboration Melynda Brooks, LANL,"— Presentation transcript:

1 J/  and  ’ Production in p+p, d+Au and A+A from PHENIX Melynda Brooks Los Alamos National Laboratory For the PHENIX Collaboration Melynda Brooks, LANL, DNP Hawaii 2014 1

2 Heavy Flavor Production D mesons,  ’,  Possible Modifications beyond p+p production extrapolation: Parton Distribution Functions modified in nucleus? Energy loss of partons traversing nucleus Cronin modification of p T spectra Breakup of charmonium before exiting nucleus Energy loss of partons traversing QGP Debye screening of charmonia by QGP If enough cc, can have charmonium production through coalescence Factorize calculations: pQCD to calculate cc production cċ propagation and hadronization Note: much of J/  production comes from feed-down from higher resonances, B c ċ Open and closed heavy flavor Heavy flavor kinematics differences J/  and  ’ have different binding energies, feed-down Melynda Brooks, LANL, DNP Hawaii 2014 2

3 The PHENIX Detector Muon Arms: J/    +  - D  X+  Adding FVTX:  ’   +  - D, B Central Arms: J/ ,  ’  e + e - D  X+e d, Cu, Au Au x≈5x10 -3 Shadowing region x≈8x10 -2 Anti-shadowing region e+e+ e-e- ++ -- Melynda Brooks, LANL, DNP Hawaii 2014 3 EPS09

4 PHENIX Data Sets p+p (200 and 510 GeV) J/ ,  ’ at central and forward rapidities d+Au (200 GeV) J/ ,  ’,  c at central rapidity J/  at forward rapidities Cu+Cu, Cu+Au, (200 GeV), Au+Au (39, 62, 200 GeV) CuCu J/  R AA at forward/backward rapidities CuAu J/  R AA at forward/backward rapidities AuAu J/  R AA at central and forward rapidities AuAu J/  R cp at 39, 62, 200 GeV, forward rapidities CuAu, AuAu  ’ at forward rapidities analysis underway Melynda Brooks, LANL, DNP Hawaii 2014 4

5 J/  in d+Au Collisions: Cold Nuclear Matter Effects Melynda Brooks, LANL, DNP Hawaii 2014 5 In d+Au collisions, rapidity-dependent R dA Forward rapidity shows more suppression than central/backward rapidities. Centrality-dependent. Possible explanations: gluon shadowing, nuclear breakup, energy loss R dA = dN/dy dAu dN/dy pp *N coll

6 However, Melynda Brooks, LANL, DNP Hawaii 2014 6 We do not see x 2 scaling, which would be indicative of gluon shadowing Energy loss and final-state effects?

7 Comparing CNM for J/ ,  ’ PHENIX:  ’ suppressed more than J/  at central rapidity, in d+Au. Time spent in nucleus (breakup) does not hold as explanation for PHENIX data. Universal trend with dN ch /d  for several systems, up to 200 GeV Alice p-Pb data also seems consistent with this trend Melynda Brooks, LANL, DNP Hawaii 2014 7

8 Comparing CNM for J/ ,  ’ Would like to more fully explore the trend with dN ch /d , but current data are limited (see below) New p+A and heavy ion data from forward rapidity will expand our coverage at RHIC Melynda Brooks, LANL, DNP Hawaii 2014 8

9 J/  :  ’ at Forward Rapidity PHENIX has a first J/  :  ’ result at forward rapidity from p+p 510 GeV FVTX detector allows separation of J/  and  ’ Heavy Ion analysis underway. p+A data set coming. Melynda Brooks, LANL, DNP Hawaii 2014 9

10 CNM for Open and Closed Heavy Flavor Open heavy flavor shows a different rapidity dependence from J/  arXiv:1310.100 5 PRC 87, 034904 PRL 109, 242301 PRC 87, 034904 arXiv:1310.100 5 PRC 87, 034904 Melynda Brooks, LANL, DNP Hawaii 2014 10 EPS09 Combination of initial-state and final-state effects or primarily final-state? The FVTX will allow more precise measurement to better quantify differences from Run 15 p+A

11 System Size and CNM Suppression similar for smaller systems (CuCu) and larger (AuAu). Near value extrapolated from dAu (modified PDF and breakup) Small rapidity dependence in CuAu, more consistent with CNM effects than QGP Melynda Brooks, LANL, DNP Hawaii 2014 11

12 J/  Heavy Ion Measurements J/  suppression strikingly similar at SPS and RHIC despite different energies Rapidity dependence not initially expected: CNM effects bring forward down? Coalescence brings central up? p T dependence does not show a strong effect Melynda Brooks, LANL, DNP Hawaii 2014 12

13 Energy Dependence Cont’d Explore energy dependence more at RHIC Don’t see large change in suppression until LHC Melynda Brooks, LANL, DNP Hawaii 2014 13 p T dependence now looks consistent with coalescence picture

14 Heavy Ion  ’:J/  At LHC energies, the J/  :  ’ ratio also seems to now deviate from linear trend. Another indication of coalescence atLHC? What will we see in RHIC heavy ion? Melynda Brooks, LANL, DNP Hawaii 2014 14

15 What’s Next at PHENIX? J/  :  ’ ratio in CuAu and AuAu at forward rapidity – will we see any  ’? J/  :  ’ ratio in p+A at forward and backward rapidity – will it follow same dN ch /d  trend? Melynda Brooks, LANL, DNP Hawaii 2014 15 Higher precision heavy flavor to help disentangle initial-state/final-state effects (see Cesar’s talk) CuAu J/ ,  ’

16 Summary Significant suppression of J/  in d-Au; extrapolation to heavy ion similar to what is measured but may be some additional QGP suppression  ’ suppressed beyond J/  in d+Au, proportional to dN ch /d  independent of energy J/  suppression in heavy ion: similar N part trend across energies, system-size until LHC where suppression is reduced How much of J/  suppression might be due to QGP effects? Does  ’ survive in heavy ion collisions at RHIC? Melynda Brooks, LANL, DNP Hawaii 2014 16

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