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21 st June 2007 RHIC & AGS Users’ Meeting Recent RHIC Results on Bulk Properties Richard Hollis.

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Presentation on theme: "21 st June 2007 RHIC & AGS Users’ Meeting Recent RHIC Results on Bulk Properties Richard Hollis."— Presentation transcript:

1 21 st June 2007 RHIC & AGS Users’ Meeting Recent RHIC Results on Bulk Properties Richard Hollis

2 2 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting The Road Ahead Bulk properties measurements at RHIC New measurements and expanded systematics Scaling with N part, N ch or  part Simple Scaling Rules

3 3 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Systematic Studies RHIC input Energy Collision system (species) Experimental input Rapidity Species System size/configuration Varied Cross-section esp. hard collisions Influence toward bulk properties Study dominating effect N part or fractional cross-section Probe range of x F Relative enhancement of baryons to mesons Path length and collective effects Do systematic studies paint a consistent picture of bulk particle production?

4 21 st June 2007 RHIC & AGS Users’ Meeting Total Charged Hadron Distributions dN/d  flow{v 2,v 1,  (v 2 )/v 2 }

5 5 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Multiplicity Latest Results Au+Au (Peripheral) Cu+Cu (22.4 GeV) Mid-rapidity Factorization in energy and centrality 4  Extended longitudinal scaling – factorizes in energy and centrality Factorization persistent across all systems QM2006

6 6 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Elliptic Flow Similar systematic dependencies as multiplicity Mid-rapidity: v 2 /  part scaling holds over a broad range of collision energy and system sizes  dependence v 2 /  part holds over large  range Extended longitudinal scaling QM2006 Matched N part Geometrical scaling with  part

7 7 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Directed Flow v 1 is found to scale with collision energy, not collision species Comparison of same overlap geometry Extended longitudinal scaling applies Relative shift in y beam

8 8 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Elliptic Flow Fluctuations Large fluctuations in the v 2 signal Geometrical Properties are imprinted on the data: Eccentricity via Flow arXiv:nucl-ex/0702036 Au+Au @ 200 GeV

9 9 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Final Charged Particle Distribution Summary Final distributions provide a consistent picture of particle production driven by simple scaling laws: Energy, centrality factorization Detailed initial geometrical configuration (  part ) How do differential measurements compare

10 21 st June 2007 RHIC & AGS Users’ Meeting p T Distributions Yield versus p T v 2 {p T } Freeze-out properties

11 11 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Yield versus p T Mid-rapidity yields versus p T Factorization in energy and centrality Similar behavior to bulk yields QM2006

12 12 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Elliptic flow at mid-rapidity Latest Results: v 2 {p T } (200 GeV) v 2 {p T } shape independent of centrality and system size PRL 98, 162301 (2007) v 2 {p T }: universal scaling?

13 13 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting STAR Preliminary Kinetic freeze-out properties Latest Results: Freeze-out properties Freeze-out temperature and flow velocity follow a common dependence with number of charged particles at mid-rapidity Mean-p T follow same trend QM2006 Scaling of low-p T properties with N ch Similar dependence noted by PHENIX (JPS 2007)

14 14 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Chemical freeze-out properties Latest Results: Cu+Cu at 200 and 62.4 GeV Universal chemical freeze-out temperature, T ch, is observed for all studied systems STAR Preliminary QM2006

15 15 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting p T Distributions Summary First differential measurements: “Universal scaling” of elliptic flow versus p T N ch scaling of kinetic freeze-out properties

16 21 st June 2007 RHIC & AGS Users’ Meeting Chemical properties Strangeness production Baryon enhancement v 2 {KE/n q,y}

17 17 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Strangeness production – K ± Latest Results: 62.4 GeV Au+Au Charge “splitting” of K/  as observed at SPS “Chemical equivalence” with SPS energies Forward Mid-rapidity QM2006

18 18 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Strangeness production –  Latest Results:  scale reasonably with N part for the same energy Enhanced strangeness production due to core of core/corona model More core per N part in Cu+Cu collisions STAR Preliminary QM2006 Phys. Rev. Lett. 98, 152301 (2007)

19 19 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Recombination Model Describes the p T dependence of strange particles K,  Fits provide good agreement with data Qualitatively reproduces  /K 0 S ratio nucl-th/0602024  (STAR) K 0 S (STAR)

20 20 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Baryon Enhancement Enhancement is maximal in the intermediate-p T region Cu+Cu data exhibit the same systematic trends as for Au+Au system QM2006 Illustrative p+p (not a fit) Cu+Cu @ 200 GeV STAR Preliminary

21 21 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Baryon Enhancement N part scaling for p/  Integrated intermediate- p T region Moreover, E T scaling exists between 200 and 62.4 GeV (pbar/  – ) Baryon transport contributes at 62.4 GeV for protons JPS 2007 PHENIX preliminary Scaling of intermediate-p T properties with E T

22 22 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Recombination Revisited Recombination predicts other B/M ratios Qualitative agreement. s-quark dependence on peak position is predicted But at higher-p T than data suggests QM2006

23 23 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Recombination Revisited Validity test: ,  A good description of the multi- strange spectra  : dominated by thermal term Look at  correlations No near-side correlation expected Correlation observed Magnitude of near-side correlation is independent of strange-quark content QM2006WWND 2007

24 24 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Quark scaling of elliptic flow Latest Results: v 2 /n q scales with KE T /n q Holds for Cu+Cu data Once  is accounted for PRL 98, 162301 (2007)WWND2007

25 25 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Identified v 2 For different centrality bins: No universal scaling ← Centrality Dependence Min-bias, particle id’d →

26 26 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Elliptic flow versus rapidity Identified flow versus p T and rapidity No appreciable difference in shape cf. PHENIX flow at mid- rapidity No difference in magnitude BRAHMS Preliminary Systematics fit into existing data Xi’an 06  ≈0  ≈3

27 27 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Chemical Summary Further differential measurements: pbar/  – N part scaling Qualitative description of B/M ratios in the recombination picture But fails to describe the multi-strange correlations Universal scaling of identified v 2 {p T } Observed for min-bias across system size Not observed versus centrality

28 28 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Summary Bulk properties measurements at RHIC New measurements and expanded systematics Scaling with N part, N ch or  part For the bulk to intermediate-p T regions Simple Scaling Rules Applicable over a broad range of centrality, energy and colliding species

29 29 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Thanks! Credits: BRAHMS Flemming Videbaek PHENIX Barbara Jacak, Craig Ogilvie STAR Aihong Tang, Subhasis Chattopadhyay, Olga Barannikova, Rene Bellwied PHOBOS Wit Busza, David Hofman, Aneta Iordanova Evan, 6 weeks and 2 days

30 21 st June 2007 RHIC & AGS Users’ Meeting Back-up Slides

31 31 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Core/corona Core – high density region Corona – low density region around the edge My own simulations Based on similar ideas Phys. Rev. Lett. 98, 152301 (2007) Au+Au “core” Cu+Cu “core” Au+Au “corona” Cu+Cu “corona” Thesis (2005)

32 32 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting Particle Ratios versus system size Particle Ratios 200 and 62.4 GeV Au+Au and Cu+Cu Weak centrality dependence, no system size dependence of particle ratios Near mid-rapidity QM2006

33 33 21 st June 2007 Richard Hollis University of Illinois at Chicago RHIC & AGS Users’ Meeting

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