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PHENIX results on centrality dependence of yields and correlations in d+Au collisions at √s NN =200GeV Takao Sakaguchi Brookhaven National Laboratory for.

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Presentation on theme: "PHENIX results on centrality dependence of yields and correlations in d+Au collisions at √s NN =200GeV Takao Sakaguchi Brookhaven National Laboratory for."— Presentation transcript:

1 PHENIX results on centrality dependence of yields and correlations in d+Au collisions at √s NN =200GeV Takao Sakaguchi Brookhaven National Laboratory for the PHENIX collaboration ~Expectations, and beyond~

2 Why were we interested in d+Au collisions? In order to confirm the high p T hadron suppression is due to final state effects, and not cold nuclear matter (CNM) effects – Need system without additional effects from a hot medium. CNM effects include: – k T -broadening (Cronin enhancement at moderate p T ) – Shadowing of parton distributions – Cold nuclear matter energy loss – And possibly more… d+Au is more favorable for RHIC operation – Better rigidity match – p+Au becomes feasible now 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 2 cartoon PHENIX, Phys. Rev. Lett. 91, 072301 (2003) ?4?

3 2015-09-30 3 T. Sakaguchi, QM2015@Kobe, Japan Direct photons – as expected PRC87, 054907 (2013) No modification in initial hard scattering and PDF compared to p+p at mid-rapidity

4 2015-09-30 4 T. Sakaguchi, QM2015@Kobe, Japan Jets – as expected in MinBias R dA is consistent with unity up to 50GeV/c within the quoted uncertainty – As expected from parton distribution function (EPS09). arXiv:1509.04657

5 2015-09-30 5 T. Sakaguchi, QM2015@Kobe, Japan Jets with centrality – beyond expectations? R dA shows strong centrality dependence arXiv:1509.04657 See talks by A. Hanks and A Timilsina, and poster by D. Perepelitsa

6 Collective flow – beyond expectations We didn’t anticipate “flow” in a small system like d+Au 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 6 PHENIX, PRL114, 192301 (2015)

7 d+Au is no longer a baseline or a simple system… Mini-QGP production? – Initial state effects, e.g. CGC, will affect to the angular correlation of particles – Final state effects, e.g. hydrodynamics will produce flow-like structure Through Fourier analysis of long-range particle correlation, we can look for the similar phenomena as A+A collisions – i.e. flow, ridge and differential energy loss New finding opportunity 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 7

8 d+Au is no longer a baseline or a simple system… Mini-QGP production? – Initial state effects, e.g. CGC, will affect to the angular correlation of particles – Final state effects, e.g. hydrodynamics will produce flow-like structure Through Fourier analysis of long-range particle correlations, we look for similar phenomena as in A+A collisions – i.e. flow, ridge and differential energy loss New opportunity for discovery! 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 8

9 Measurement strategy Make pairs of charged hadrons (h +/- ) or  0 ’s measured in the central arm (|  |<0.35) with tower hits in MPC south (-3.7<  <-3.1) or north (3.1<  <3.9) – South is Au-going (more multiplicity), and North is d-going. – Long range:  =  MPC -  cent = ~3.4 Fit correlation functions with Fourier series 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 9 northsouth d Au

10 Ridge-like structure is observed in d+Au h +/- - MPC south correlation functions in central d+Au and minbias p+p collisions – Au-going direction Near-side peak clearly seen in d+Au but not in p+p Analyze correlation functions with Fourier fits 2 nd order component (c 2 ) increases as p T becomes larger Similar correlation but the smaller strength is seen in h +/- - MPC north correlation 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 10 PHENIX, PRL114, 192301 (2015) pTpT d+Aup+p

11 Measured v 2 in central d+Au at low p T Using event-plane method, v 2 was measured for 0-5% d+Au collisions Mass ordering is similar to what we have seen in Au+Au 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 11 PHENIX, PRL114, 192301 (2015) PHENIX

12 Anisotropy continues to high p T Let’s look at PHENIX d+Au! We use  0 to get to high p T 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 12 ATLAS p+Pb 5.02TeV, h +/- PRC90, 044906 (2014) PHENIX Au+Au 200GeV,  0 /  PRC88, 064910 (2013) flow energy loss

13 Ridge structure up to high p T in d+Au  0 -MPC south correlation functions 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 13

14 Ridge structure up to high p T in d+Au  0 -MPC south correlation functions 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 14 Extended p T range by using  0 s

15 Fourier coefficients over centrality and p T c 2 from  0 - MPC south correlations – Au-going direction c 2 is decreasing above ~ 3GeV/c – visible up to ~8GeV/c Look for shape changes by comparing c 2 to c 1 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 15

16 Ridge evolution in  0 -MPC south / Au-going… -c 2 /c 1 from  0 - MPC south correlations – Au-going direction – Assuming c 1 is a proxy of jets or global momentum conservation Measure shape evolution by relative magnitude of 2 nd order component -c 2 /c 1 > 0.25 corresponds to near-side local maximum (if c 3 = c 4 = 0) 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 16

17 … and for the north / d-going -c 2 /c 1 from  0 - MPC north correlations – d-going direction Very different behavior – -c 2 /c 1 is much lower than in  0 -MPC south correlations – Much less centrality evolution, closer to p+p values Ridge is asymmetric in rapidity 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 17

18 Summary d+Au collisions are no longer a simple system Anomalous centrality dependence of jet production has been observed in d+Au collisions – Enhancement of R dA in peripheral and suppression in central – Minbias R dA is consistent with unity Ridge (flow)-like structure is observed in long-range two-particle correlations – h +/- - MPC south in Au-going direction – p T and mass dependence is similar to what was observed in A+A Use  0 correlations to extend the range in p T Ridge (flow)-like structure visible up to ~8GeV/c in  0 - MPC south (Au-going direction) correlations, analyzed with -c 2 /c 1 -c 2 /c 1 is weaker for  0 - MPC north correlations (d-going direction) 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 18

19 Backup 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 19

20 Ridge structure up to high p T ? Going to more central, the ridge-like structure become more prominent – As was the case for low pT Stronger correlation seen for CNT-MPCS 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 20

21 Ridge structure upto high pT? c2 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 21 MPC southMPC north d Au

22 Ridge structure upto high pT? -c2/c1 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 22 MPC southMPC north d Au

23 d+Au is suppressing -c2/c1 with line at 0.25 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 23 MPC southMPC north d Au

24 Comparing with new collision systems 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 24 Pointer to Itaru and Shengli’s talk, Seyong’s poster

25 Extend the rapidity range T. Sakaguchi, QM2015@Kobe, Japan 25 PHOBOS Phys. Rev. C72, 031901 MPC Au-going MPC d-going  Muon Piston Calorimeter Forward/backward-rapidity 3<|  |<4  Extend the rapidity range by measuring the correlation between Tracks ( 2.75! 2015-09-30

26 PHENIX Detector and analysis Photon measurement – EMCal(PbSc, PbGl): Energy measurement and identification of real photons – Tracking(DC, PC): Complement Veto to Charged particles Charge particle measurement – RICH: Identify electrons – Tracking(DC, PC): Momentum measurement of electrons – EMCal(PbSc, PbGl): Complement information on identifying electrons Event triggered by BBC and ZDC – Select Minimum bias events – And, event plane detectors.. 2015-09-30T. Sakaguchi, QM2015@Kobe, Japan 26 View From Beam View From Side (PbSc) (PbGl) PHENIX recorded d+Au events of 80 nb -1 in 2008 (2.74 nb -1 in 2003)

27 Compare c 2 from d+Au and p+p T. Sakaguchi, QM2015@Kobe, Japan 27 The difference indicates that the contribution from di-jet, resonance decay … is less than 10% for arXiv:1404.7461 2015-09-30

28 “Au-going” vs “d-going” T. Sakaguchi, QM2015@Kobe, Japan 28 2015-09-30

29 T. Sakaguchi, QM2015@Kobe, Japan 29 mid-forward(d-going) correlation  The mid-forward rapidity correlation in central d+Au is different from that in peripheral, even though there is no near- side peak 2015-09-30

30 T. Sakaguchi, QM2015@Kobe, Japan 30 Mid-backward(Au-going) correlation  The near-side peak is visible until 10-20% centrality  In peripheral collisions, the Au- going correlation is similar to the d-going correlation 2015-09-30

31 T. Sakaguchi, QM2015@Kobe, Japan 31 A ridge is observed with|  |>6.0  Correlation between Au-going and d-going MPC towers 2015-09-30

32 T. Sakaguchi, QM2015@Kobe, Japan 32 2015-09-30

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