Marzia Rosati Iowa State University M. Rosati 9/26/14 1
d Au n J/ψ is mostly produced by gluon fusion, and thus sensitive to gluon pdf n Phenix probes different momentum fraction of Au gluons Ø South (y < -1.2) : large X 2 (in gold) ~ 0.090 Ø North (y > 1.2) : small X 2 (in gold) ~ 0.003 Ø Central (y ~ 0) : intermediate X 2 ~ 0.020 X 1 X 2 rapidity y J/ψ y < 0 Shadowing Anti Shadowing X 1 X 2 J/ψ y > 0 Nucl. Phys. A696 (2001) 729-746. Marzia Rosati - Iowa State University 9/26/14 2
Ø 200 GeV Cu+Cu Cu+Au U+U Ø 62.4 GeV Ø 39 GeV 3
PHENIX, PRC 84, 054912 (2011) Ø Smooth suppression with increasing collision centrality Ø Forward rapidity more suppressed than mid-rapidity 200 GeV Cu+Cu Cu+Au U+U 62.4 GeV 39 GeV Marzia Rosati - Iowa State University 9/26/14 4
PRC86, 064901 (2012) 200 GeV Cu+Cu Cu+Au U+U 62.4 GeV 39 GeV 62 GeV suppression follows the trend of the 200 GeV and constrains theoretical models 5
J/ R AA Ø Theory 1 Theory X. Zhao, R. Rapp Phys Rev C82 064905 (2010) 200 GeV 62 GeV 39 GeV R AA (200 GeV) PRC 84, 054912 (2011) Global sys.= ± 9.2% R AA (62.4 GeV) = PHENIX data/our estimate Global sys.= ± 29.4% R AA (39 GeV) = PHENIX data/fnal data Global sys.= ± 19% 200 GeV Cu+Cu Cu+Au U+U 62.4 GeV 39 GeV -1 10 10-2 Regeneration (x0.5) Direct (x0.5) 0 50 100 150 200 250 300 350 400 PRC86, 064901 (2012) N part 62 agrees with data, suggesting similarity of R AA from 39 to 200 GeV originates from cancellation of suppression and regeneration 6
200 GeV Cu+Cu Cu+Au U+U 62.4 GeV 39 GeV Ø Qualitatively similar suppression from Cu+Cu to U+U. Ø Somewhat weaker suppression in central U+U collisions? Higher coalescence? 7
arxiv:1404.1873 200 GeV Cu+Cu Cu+Au U+U 62.4 GeV 39 GeV Ø suppression in Cu+Au comparable to but somewhat smaller Ø Cu-going more suppressed than Au-going. 8
arxiv:1404.1873 200 GeV Cu+Cu Cu+Au U+U 62.4 GeV 39 GeV Ø CNM effects: Cu-going R AA probes low x gluons in Au long proper crossing time. Au-going R AA probes low x in Cu, short proper crossing time. CNM = EPS09 + 4mb breakup (Phys. Rev. C84, 044911, 2011) 9
Ø Strong centrality dependence not expected from EPS09 or breakup cross section 10
PRL 111, 202301 (2013) Ø Ψ is ~3 times more suppressed in most central collisions than J/Ψ. Ø Very different trend with N COLL. 11
Ø Bound ccbar cross nucleus as a preresonant state Ø Ψ and J/Ψ should have the same suppression 12
Ø Rela%ve modifica%on in all systems follows common trend with increasing produced par%cle density. Ø Co- mover (or medium) density seems to be the relevant quan%ty. 13
Ø Mass resolution doesn t unable PHENIX to separate the 1S+2S+3S states. 14
arxiv:1404.2246 15
arxiv:1404.2246 For central collisions Υ invariant yield at midrapidity is reduced relative to expected N coll scaling 16
R AA 1.8 PHENIX (1S+2S+3S) = 200 GeV y < 0.35 1.6 CMS (1S+2S) 1.4 1.2 1 0.8 0.6 0.4 0.2 s AuAu s PbPb = 2.76 TeV y < 2.4 40% Global Syst. Uncertainty PHENIX 25% Global Syst. Uncertainty CMS 0 0 50 100 150 200 250 300 350 400 N part Ø Expected maximum R AA : No 2S and 3S: 0.65 ± 0.11 No 2S, 3S and chi B : 0.37 ± 0.09 Ø Measured R AA consistent with melting of 2S+3S. Ø Consistent with LHC results for the same N PART. 17
arxiv:1404.2246 Ø Model based on rate equation by Emerick, Zhao and Rapp [Eur. Phys. J. A48,72(2012)] Ø Model includes Υ primordial formation, nuclear absorption and regeneration (very small at RHIC) Ø Model consistent with data 18
arxiv:1404.2246 Ø Potential Model with finite momentumspace anisotropy by Strickland and Barzov [Nucl.Phys. A 879,23(2012)] Ø Data prefers model with potential B which includes entropy contribution to the free energy but unable to constrain η/s 19
Ø Integrated luminosity ( z ±30 cm) L = 6.6 nb -1 5 2010 dataset 8 2007 dataset Klaus Dehmelt 06/19/2014 20
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PHENIX PRL 111, 202301 (2013) 23
PHENIX, PRC 87, 044909 (2013) Suppression consistent with NLO +EPS09 trend (R. Vogt, PRC C81, 044903, 2010) Unable to constrain breakup cross section due to large experimental uncertainties. 24