1. System size dependence of strange particle correlations in Cu+Cu and Au+Au collisions at  s NN = 200 GeV at RHIC Christine Nattrass (Yale University) STAR Collaboration SQM 2007, Levoča, Slovakia

2. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 2 Outline Motivation Analysis technique Results Conclusion s

3. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 3 Intermediate p T baryon/meson enhancement Large enhancement of baryon/meson ratio in central collisions relative to p+p in both Au+Au and Cu+Cu reaches maximum at p T ~ 2-3 GeV/c not unmodified jet fragmentation Baryon/meson splitting of R cp strange and non-strange particles show similar suppression nucl-ex/0608017 A. Timmins, SQM 2007 A. Timmins, QM 2006

4. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 4 Motivation – particle identification in jets Particle/antiparticle differences Quark vs gluon jets Meson/baryon differences Coalescence/ recombination mechanisms Consistent with particle ratios Testable with identified particle correlations? Parton Parton Hadrons Hadrons  K 0 S, 

5. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 5 Strange particle identification Full azimuthal acceptance Reconstruction of decay vertices possible ~95% purity in Cu+Cu high p T VoVo   STAR Preliminary Arbitrary scale  STAR Preliminary Arbitrary scale K0SK0SK0SK0S STAR Preliminary Arbitrary scale 2.0 GeV<p T <2.5 GeV, 0-10% Ξ+Ξ+Ξ+Ξ+ STAR Preliminary Arbitrary scale Mass (GeV/c) STAR Preliminary Ξ-Ξ-Ξ-Ξ- Arbitrary scale Mass (GeV/c) 2.0 GeV<p T <2.5 GeV, 0-10%

6. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 6 6 Motivation - Long-range pseudorapidity correlations Long-range pseudorapidity (  ) correlations observed by STAR in Au+Au at intermediate p T Near side jet peak sits on plateau (Ridge) Significant contribution to the near-side yield in central Au+Au Look for particle and system size dependencies which might reveal information about production mechanism nucl-ex/0701074 h-h

7. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 7 ΔΦ-Δη Correlations - Method Ridge previously observed to be flat in  To determine relative contributions, find yields for near-side, take   projections in -0.75<  <0.75 Jet + Ridge 0.75<|  |<1.75 Ridge Jet = (Jet+Ridge) – Ridge*.75/1.75 Ridge = yield from -1.75<  <1.75 – jet yield Flow contributions to jet cancel v 2 roughly flat with  3<p t,trigger <4 GeV p t,assoc. >2 GeV Ridge Jet+ Ridge Ridge Au+Au 0-10% STAR preliminary h+h nucl-ex/0701074

8. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 8 The Ridge in Cu+Cu Is there a Ridge in Cu+Cu?  projection flat at large  Small and large  regions match on away side Small yield above background in large  region Jet yield in  consistent with Jet in  subtracting (Jet+Ridge)-Ridge 1/N trig d 2 N/d  d  3.0 GeV<p T trig <6.0 GeV, 1.5 GeV<p T assoc <p T trig h-h, 0-20% Cu+Cu  s NN = 200 GeV STAR Preliminary   1/N trig dN/d   0 ~.13 -1<<1 -1<  <1 STAR Preliminary 3.0 GeV<p T trig <6.0 GeV, 1.5 GeV<p T assoc <p T trig h-h, 0-20% Cu+Cu  s NN = 200 GeV   STAR Preliminary Jet + Ridge Ridge Ridge  1/N trig dN/d  STAR Preliminary Jet+Ridge -.75<  <.75 Ridge.75<|  |<1.75 scaled by.75 ~.20 Different flow background parameters 3.0 GeV<p T trig <6.0 GeV, 1.5 GeV<p T assoc <p T trig h-h, 0-20% Cu+Cu  s NN = 200 GeV  1/N trig dN/d  ~.19 (Jet+Ridge) - Ridge*.75

9. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 9 9 Determination of yields and errors Background: B(1+2 v 2 trig v 2 assoc cos(2ΔΦ)) Different fit methods for determination of B Zero Yield At Minimum (ZYAM) 1 point, 3 points B as Free parameter (used as best guess) v 2 error v 2 measurements in progress upper bound for v 2 measured v 2  10-15% depending on p T, centrality estimate for lower bound, near 0 Λ,  Λ,K 0 S,Ξ -,Ξ + v 2 not measured Assume quark scaling of h v 2 in Cu+Cu fit with ZYAM with 3 points, high v 2 fit with ZYAM with 1 point fit with ZYAM with 3 points, best v 2 fit with ZYAM with 3 points, low v 2 fit with background as free parameter reflected 3.0 GeV<p T trig <6.0 GeV, 1.5 GeV<p T assoc <p T trig h-h, 0-20% Cu+Cu  s NN = 200 GeV STAR Preliminary Arbitrary units

10. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 10 Near-side Yield vs N part Jet yield flat with N part within errors no v 2 or background error due to method Ridge yield very small flat with N part within errors No trigger particle type dependence Data points at same N part offset for visibility Jet yields: 10% error added to V 0 and h triggers to account for track merging, 15% to  triggers

11. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 11 Near-side Yield vs N part Cu+Cu vs Au+Au Jet yield comparabl e in Cu+Cu and Au+Au Ridge yield consistent with N part in Cu+Cu and Au+Au Data points at same N part offset for visibility STAR Preliminary d+Au, Au+Au from nucl-ex/0701047

12. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 12 Near-side yield vs p T trigger Jet yield rises with p T trigger in h-h Yield roughly constant with centrality No particle type dependence within error bars Central Au+Au and 0- 60% Cu+Cu jet yields comparable nucl-ex/0701047

13. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 13 p T -distribution of associated particles Ridge spectra similar to the bulk Cu+Cu measurements probably not possible Jet spectra are slightly harder Cu+Cu T within error of Au+Au Cu+Cu fit only to h-h nucl-ex/0701047 416 ± 11 (stat.) 406 ± 20 (stat.) 438 ± 4 (stat.) T(ridge) MeV 445 ± 49Λ 530 ± 61K0SK0S 478 ± 8h +/- T (jet) MeVTrigger particle 445  20 MeV Fit to A exp(-p T /T) J. Putschke, QM 06

14. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 14 Conclusions Ridge yields Cu+Cu very small Cu+Cu and Au+Au consistent at the same N part No trigger particle type dependence within errors including non-strange, and singly and doubly strange triggers Jet yields Cu+Cu and Au+Au consistent at the same N part increases with p T trigger constant with centrality independent of system

15. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 15 Future work Systematics Reduce systematic error from v 2 Identified particle v 2 Coming soon Identified associated particles in Cu+Cu  triggers Comparisons to Au+Au – See B. Abelev's SQM talk Away-side yields Energy dependence of Jet and Ridge yields  ~1000  triggers in central Cu+Cu with p T >2.5 GeV/c! ~2000 in central Au+Au STAR Preliminary

16. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 16 STAR Collaboration University of Illinois at Chicago - Argonne National Laboratory Institute of High Energy Physics - University of Birmingham Brookhaven National Laboratory - California Institute of Technology - University of California, Berkeley - University of California, Davis - University of California, Los Angeles - Carnegie Mellon University - Creighton University – Nuclear Physics Inst., Academy of Sciences - Laboratory of High Energy Physics - Particle Physics Laboratory - University of Frankfurt - Institute of Physics, Bhubaneswar - Indian Institute of Technology, Mumbai - Indiana University Cyclotron Facility - Institut de Recherches Subatomiques de Strasbourg - University of Jammu - Kent State University - Institute of Modern Physics - Lawrence Berkeley National Laboratory - Massachusetts Institute of Technology - Max-Planck-Institut fuer Physics - Michigan State University - Moscow Engineering Physics Institute - City College of New York - NIKHEF and Utrecht University - Ohio State University - Panjab University - Pennsylvania State University - Institute of High Energy Physics - Purdue University – Pusan National University - University of Rajasthan - Rice University - Instituto de Fisica da Universidade de Sao Paulo - University of Science and Technology of China - Shanghai Institue of Applied Physics - SUBATECH - Texas A&M University - University of Texas, Austin - Tsinghua University - Valparaiso University – Variable Energy Cyclotron Centre, Kolkata - Warsaw University of Technology - University of Washington - Wayne State University - Institute of Particle Physics - Yale University - University of Zagreb Thank you!

17. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 17 Backup slides

18. Christine Nattrass, Yale University SQM 2007 Levoča, Slovakia STAR 18