Energy dependence of minijet structure in Au-Au collisions at √ s NN = 19 – 200 GeV

1. Energy dependence of minijet structure inAu-Au collisions at √sNN = 19 – 200 GeV STAR Collaboration DNP 04 Michael Daugherity Graduate Student - University of Texas

2. Correlation Measures I ρsibling(p1,p2) Event 1 ρreference(p1,p2) Event 2 Normalize with the previous talk used Number Correlations ρ(p1,p2)= 2 particle density in momentum space Or, defining Δρ as a histogram, bin (a,b) can be written as: is a per-particle measure We calculate this as a function of (ηΔ = η1 –η2, ΦΔ= Φ1 – Φ2), separation in pseudorapidity and azimuth (axial momentum space) Daugherity – DNP 04 University of Texas

3. centrality proton-proton 200 GeV • Correlation structure evolves smoothly from p-p to central Au-Au • Measure of minimum-bias jets (minijets) STAR Au-Au 62 GeV Number Correlations Peripheral ΦΔ ΦΔ ΦΔ ΦΔ ΦΔ ηΔ ηΔ ηΔ ηΔ ηΔ STAR Preliminary Central ΦΔ ΦΔ ΦΔ ΦΔ ΦΔ ηΔ ηΔ ηΔ ηΔ ηΔ Daugherity – DNP 04 University of Texas

4. Correlation Measures II Above plots showed number correlations, we can also find correlations in pt Number Correlation pt Correlation STAR 130 GeV mid-central STAR Preliminary ηΔ ΦΔ We will discuss pt correlations where bin (a,b) is the pt covariance between particles with separation (ηΔ,ΦΔ) Daugherity – DNP 04 University of Texas

5. Centrality Dependence of ptCorrelations centrality STAR 62 GeV pt Correlations 70-80% 55-65% 45-55% STAR Preliminary 35-25% 5-10% 0-5% Daugherity – DNP 04 University of Texas

6. Energy Dependence of ptCorrelations Peripheral 19 GeV 62 GeV 130 GeV 200 GeV STAR Preliminary Mid-central 19 GeV 62 GeV 130 GeV 200 GeV Daugherity – DNP 04 University of Texas

7. Isolating Minijet Structure Isolate “same-side” peak (ηΔ,ΦΔ≈ 0) by subtracting azimuth multipole components 62 GeV unsubtracted data 70-80% 45-55% 15-25% 62 GeV subtracted data same as above, but with cos(ΦΔ) and cos(2ΦΔ) components subtracted STAR Preliminary Daugherity – DNP 04 University of Texas

8. Energy and Centrality Dependence of Minijets subtracted data 19 GeV 62 GeV 130 GeV 200 GeV Peripheral Mid-central STAR Preliminary Central

9. Summary • Minijets (minimum-bias parton fragments) produce number and pt correlations in axial momentum space • Minijet structure is revealed with minimum bias by two-particle correlations formed with no trigger particle • pt correlations attributed to minijets are strongly energy and centrality dependent • Minijet correlation structure probes the colored medium produced in RHIC Au-Au collisions Daugherity – DNP 04 University of Texas

10. Extra Slides Daugherity – DNP 04 University of Texas

11. Extra Slide 1 – Direct Method for pt Correlations # of pairs Single Event ΦΔ Sum over events ηΔ b ΦΔ a ηΔ Find pt covariance between particles in bins a and b: Normalize to number of particles in bins a and b: Construct pt correlation for all bins (a,b): Daugherity – DNP 04 University of Texas

12. Extra Slide 2 – Fluctuation Inversion “discrete integral” variance difference event-wise mean pt variance minus variance of inclusive reference distribution (see nucl-ex/0308033) pt correlation 2D binning function The pt correlation data were obtained with the fluctuation inversion method Fluctuation Inversion in a Nutshell: Calculate Δσ2pt:n then numerically invert to find pt correlations see hep-ph/0410180 and hep-ph/0410182 for details Daugherity – DNP 04 University of Texas