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SQM 2015 Heavy flavor production and the properties of sQGP at top energies Wei Xie for STAR Collaboration (PURDUE University, West Lafayette) 1July 6.

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Presentation on theme: "SQM 2015 Heavy flavor production and the properties of sQGP at top energies Wei Xie for STAR Collaboration (PURDUE University, West Lafayette) 1July 6."— Presentation transcript:

1 SQM 2015 Heavy flavor production and the properties of sQGP at top energies Wei Xie for STAR Collaboration (PURDUE University, West Lafayette) 1July 6 - 11, 2015

2 SQM 2015 Motivation  Heavy quarkonium production reveals critical features of the medium  suppression from color screening or gluon scattering  enhancement from coalescence  Heavy quarks interact with the medium differently from light quarks  gluon bremsstrahlung radiation  collisional energy loss  collision dissociation  Ads/CFT  Cold Nuclear effects Gluon shadowing, Color glass condensate, Initial state energy loss, etc  Sensitive to the nuclear gluon distribution and medium initial gluon density  produced mostly from gluon fusion 2July 6 - 11, 2015

3 Quarkonium Suppression: “Smoking Gun” for QGP cc J/  D+D+ d Low temperature Vacuum High temperature High density (screening effect takes place) d D-D- Courtesy of Bill Zajc SQM 20153 Low temperature Vacuum Sequential melting  a QGP thermometer H. Satz, NPA 783 (2007) 249c. July 6 - 11, 2015

4 The life of Quarkonia in the Medium can be Complicated Observed J/  is a mixture of direct production+feeddown ( H.K.Wohri @QWG2014 ) –Prompt J/  : ~ 60% J/  (direct) + 30%  c feed down + ~10%  (2s) feed down –Non-prompt: B meson feed down. Important to disentangle different components Suppression and enhancement in the “cold” nuclear medium – Nuclear Absorption, nuclear PDF effects, initial state energy loss, Cronin effect and gluon saturation (CGC) –Study p+A collisions Hot/dense medium effects – J/   dissociation, i.e. suppression – Recombination, i.e. enhancement –Study different species, e.g. J/ ,  –Study at different energies, e.g. RHIC, LHC D+D+ cc c J/  SQM 20154July 6 - 11, 2015

5 How does STAR Measure Heavy Quarkonia SQM 20155July 6 - 11, 2015

6 J/ψ R AA in 200 GeV Au+Au Collisions SQM 2015 PRC 90, 024906 (2014)  Broad p T coverage  TBW assuming J/ψ velocity zero (solid curve). Fit data well for all p T same as light hadrons (dashed curve). Fit data at high p T  Much smaller radial flow?  Regeneration at low p T ? Tsallis Blast-Wave model: ZBT et al., arXiv:1101.1912. 6July 6 - 11, 2015

7  High p T less suppressed than low p T Cronin effect? Longer formation time?  Different dependence of R AA on p T at LHC Less suppression at lower p T & higher collision energies Consistent with regeneration picture  Less regeneration than at LHC?  or larger shadowing at LHC? arXiv:1311.0214arXiv:1311.0214 SQM 20157 PLB 722(2013)55-62 CMS PAS HIN-12-014 July 6 - 11, 2015

8 SQM 2015 J/ψ Elliptic Flow in 200 GeV Au+Au Collisions  Disfavors the case that J/ψ with p T > 2.0 GeV/c is produced dominantly by coalescence from thermalized charm and anti-charm quarks  Finite v 2 from charm quark coalescence ? PRL 111, 052301 (2013) 8July 6 - 11, 2015

9 Self-normalized Yields:  (nS)/ Vs N tracks Suppression vs. Energy in Au+Au Collisions SQM 20159July 6 - 11, 2015

10 J/  Production in p+p Collisions SQM 2015  Color singlet model (NNLO*CS) disagree with data  P. Artoisenet et al., PRL. 101, 152001 (2008), and J.P. Lansberg private communication.  NLO CS+ CO & Color Evaporation Model & NRQCD agree with the data Y.-Q. Ma et al., Phys. Rev. D84, 51 114001 (2011), and private communication  M. Bedjidian et al., hep-ph/0311048; R. Vogt private communication  Following x T scaling in p+p collisions  MTD dimuon trigger greatly increase low p T J/ψ accuracy JPG38,124107(2011), PRC80,041902(R) (2009), PRC82,012001(2010) Details see B. Trzeciak’s talk 10July 6 - 11, 2015

11 Self-normalized Yields:  (nS)/ Vs N tracks Enhancement in High Multiplicity p+p Collisions  HF production vs. event activity @LHC different trend in p+p and HI collisions Similar linear trend in p+Pb and Pb+Pb Faster rise in p+p Similar trend for J/ψ and D at mid-rapidity  Similar results in 500 GeV p+p @RHIC Rising trend seems similar  Multi-parton interaction, CGC in p+p collisions, etc?  How does it affect heavy-ion collisions? JHEP 04 (2014)103 PLB 712 (2012)165-175 SQM 2015 Details see B. Trzeciak’s talk 11July 6 - 11, 2015

12 SQM 2015 Compared to J/ψ  recombination can be neglected at RHIC  Final state co-mover absorption is expected to be small  Consistent with prediction from a model requiring strong 2S and complete 3S suppression PLB735,127(2014)PLB735,127(2014) 12  Some models doesn’t include CNM effect. e.g. Strickland, Liu-Chen models July 6 - 11, 2015

13 SQM 2015 Cold Nuclear Matter Effect on Upsilon Production  Indication of suppression in d+Au in |y|<0.5. Indicative of effect beyond shadowing, initial state E-loss or absorption by spectator nucleons The suppression is consistent with E772 results. PLB735,127(2014)PLB735,127(2014) 13July 6 - 11, 2015

14 Essential to understand Open Heavy Flavor Production A good reference to quarkonium production – Similar initial state effects CGC, Shadowing, initial state energy loss, etc. – Large cross section (compared to J/ψ). Accurate reference measurements One of the most important probes for sQGP – Dominated by initial hard scatterings – Interactions between heavy quark and medium are quite different from the ones for light quarks gluon radiation, collisional energy loss, collisional disassociation, etc – allow further understanding of the medium properties – A “Gold Mine” to be fully explored very soon SQM 201514July 6 - 11, 2015

15 How does STAR Measure Heavy Open Heavy Flavors SQM 201515July 6 - 11, 2015

16  Combining data from Run2010 & 2011  Total: ~800 M Min.Bias events  Significant signals are observed  In all centrality bins D 0 Signal in Au+Au 200 GeV SQM 2015 PRL113, 142301 (2014) 16July 6 - 11, 2015

17  Suppression at high p T in central and mid-central collisions  D suppression pattern is similar to that of charged pions Centrality dependence of D 0 Suppression in Au+Au 200 GeV SQM 2015 PRL113, 142301 (2014) 17July 6 - 11, 2015

18  Suppression at high p T in central and mid-central collisions  Enhancement at intermediate p T Can be described by models including coalescence between charm quark and light quark Cold nuclear matter effects may also contribute Enhancement of D 0 production at Intermediate p T in Au+Au 200 GeV SQM 2015 PRL113, 142301 (2014) 18July 6 - 11, 2015

19 N coll Scaling of D 0 Production in Au+Au 200 GeV  Charm quarks are mostly produced via initial hard scatterings  Quantify other sources of production via high luminosity and upgrade  Indication of a breakdown of the N coll scaling at LHC Shadowing? [1] STAR d+Au: J. Adams, et al., PRL 94 (2005) 62301 [2] FONLL: M. Cacciari, PRL 95 (2005) 122001. [3] NLO: R. Vogt, Eur.Phys.J.ST 155 (2008) 213 [4] PHENIX e: A. Adare, et al., PRL 97 (2006) 252002. SQM 201519July 6 - 11, 2015

20 SQM 2015 Non-photonic Electron R AA in Au+Au 200 GeV DGLV: Djordjevic, PLB632, 81 (2006) CUJET: Buzzatti, arXiv:1207.6020 T-Matrix: Van Hees et al., PRL100,192301(2008). Coll. Dissoc. R. Sharma et al., PRC 80, 054902(2009). Ads/CFT: W. Horowitz Ph.D thesis.  ~1 nb -1 sampled luminosity in Run 2010 Au+Au collisions  Strong suppression at high p T in central collisions  D 0, NPE results seems to be consistent kinematics smearing & charm/bottom mixing  Models with radiative energy loss alone underestimate the suppression Uncertainty dominated by p+p NPA904,905, 170c(2013) 20July 6 - 11, 2015

21 NPE Enhancement at Lower Energy NPA904,905, 665c(2013) SQM 201521July 6 - 11, 2015

22 SQM 2015 200 GeV Au+Au:  Large NPE v 2 observed at low p T  strong charm-medium interaction  v 2 increase at p T > 3 GeV/c Jet-like correlation 39 and 62.4GeV Au+Au:  v 2 consistent with zero different from 200GeV results (p-value: 0.0014@62.4GeV, 0.005@39GeV)  Might suggest charm –medium interaction is not as strong as in 200 GeV NPE Elliptic Flow Depend on Energy 22July 6 - 11, 2015

23 New Era of Heavy Flavor Measurement at STAR PIXEL: high hit resolution: 20.7µm pitch low thickness: X/X 0 = 0.4%/layer  Muon identification  Muon trigger SQM 201523July 6 - 11, 2015

24 Summary SQM 201524July 6 - 11, 2015

25 Backup Slides SQM 201525July 6 - 11, 2015

26 SQM 2015 TAMUSUBATECHTorinoDukeLANL HQ prod.LOFNOLLNLOLO QGP-Hydroideal viscous ideal HQ eLosscoll. +rad. coll.+ra d. diss. +rad. CoalescenceYes NoYesNo Cronin effect Yes No Yes ShadowingNo YesYes/NoYes 26July 6 - 11, 2015

27 SQM 201527July 6 - 11, 2015

28 Significant v 2 observed at high p T CMS PAS HIN-12- 001 PRL 111(2013)162301 SQM 201528July 6 - 11, 2015

29 How CNM plays a role in the suppression J/ψ in pPb:  Significant suppression from CNM at low p T Close to R PbPb Pb+Pb partially compensated by regenerated J/ψ? Upsilon double ratio:  Much lower in Pb+Pb.  Initial state effect likely cancelled in the comparison  Suppression in Pb+Pb is a final state effect. SQM 201529July 6 - 11, 2015

30 Suppression in Pb+Pb is a final state effect D b-jet From low p T to intermediate p T  R AA (D) ~ R AA (π) within uncertainties  R AA (B) > R AA (D) Different energy loss? What’s the impact of, e.g. production spectrum. b  J/ψ At high p T  R AA (b-jet) ~ R AA (all jets) What’s the NLO effect, e.g. FEX, GSP? SQM 201530July 6 - 11, 2015

31 SQM 201531 H.K. Wohri @ QWG2014 July 6 - 11, 2015

32 SQM 201532 H.K. Wohri @ QWG2014 July 6 - 11, 2015

33 SQM 201533

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