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Di-Jet Imbalance Measurements in Central Au+Au Collisions at √s NN =200 GeV from STAR Kolja Kauder for the STAR Collaboration July 02, 2015.

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Presentation on theme: "Di-Jet Imbalance Measurements in Central Au+Au Collisions at √s NN =200 GeV from STAR Kolja Kauder for the STAR Collaboration July 02, 2015."— Presentation transcript:

1 Di-Jet Imbalance Measurements in Central Au+Au Collisions at √s NN =200 GeV from STAR Kolja Kauder for the STAR Collaboration July 02, 2015

2 Overview 7/2/2015Kolja Kauder, WSU - Hard Probes '152  Motivation  Data Analysis  Data Selection and Jet Reconstruction  Method  Results  Summary

3 7/2/2015Kolja Kauder, WSU - Hard Probes '153  Ensemble-based  hard trigger  small modification  Suppression at high p T  Enhancement at low p T  Broadening in   Goal: jet-by-jet E-loss  Di-jet Imbalance A J Di-hadron STAR, PRL 91, 072304 (2003) STAR, PRL 95,152301 (2005) A Decade+ of Jet Quenching in STAR Di-Jets STAR, PRL 97, 162301 (2006) 2+1 STAR, PRC 83, 061901 (2011) Jet-hadron STAR, PRL 112, 122301 (2014)

4 The Solenoidal Tracker At RHIC (STAR) 7/2/20154Kolja Kauder, WSU - Hard Probes '15  Tracking (charged) and EMC (neutral) in 2  (azimuth) × ±1 (  )  High Tower (HT) trigger: E T >5.5 GeV in one tower  AuAu 2007: cut to 0-12% central  pp from 2006: Embed into 0-12% central Au+Au  Efficiency difference and systematic uncertainty assessed in embedded pp Jet-Finding: FastJet3 M. Cacciari and G. Salam Phys. Lett. B 641, 57 (2006)  Anti-k T, R=0.4 (0.2)  Background: k T, same R

5 (Biased) Di-Jet Selection 7/2/2015Kolja Kauder, WSU - Hard Probes '155 Constituent p T Cut = 2 GeV/c  Reduce BG  Reduce combinatorial jets Di-jet Selection: Jet p T Lead >20 GeV/c Jet p T SubLead >10 GeV/c |  -  |<0.4 Constituent p T Cut = 0.2 GeV/c ATLAS, PRL 105, 252303 CMS, PRC 84, 024906 (2011)

6 Di-Jet Imbalance A J Central Au+Au, R=0.4 Anti-k T R=0.4, p T Lead >20 GeV & p T SubLead >10 GeV with p T cut >2 GeV/c |A J | Preliminary Sys. Uncertainties: - tracking eff. 6% - tower energy scale 2% Au+Au di-jets more imbalanced than p+p for p T cut >2 GeV/c Can the balance be restored? Event Fraction p-value < 10 -4 (stat. error only) 7/2/2015Kolja Kauder, WSU - Hard Probes '156 Central Au+Au anti-k T, R=0.4 Pearson’s  2 -test of “The two histograms sample the same distribution” N.D. Gagunashvili, arXiv:physics/0605123

7 Matched Di-jets w/o Constituent p T Cut p T Cut =0.2 GeV/c p T Lead >20 GeV/c (p T Cut =2 GeV/c) p T SubLead >10 GeV/c (p T Cut =2 GeV/c) Keep this jet selection Geom. matching Calculate “matched” |A J | with constituent p T,cut >0.2 GeV/c. Rerun jet-finding algorithm anti-k T on these events 7/2/2015Kolja Kauder, WSU - Hard Probes '157 p T Cut =2 GeV/c p T Lead >20 GeV/c p T SubLead >10 GeV/c |  -  |<0.4 Geom. matching:  R<0.4

8 Di-Jet Imbalance A J Central Au+Au, R=0.4 Anti-k T R=0.4, p T Lead >20 GeV & p T SubLead >10 GeV with p T cut >2 GeV/c |A J | Preliminary Sys. Uncertainties: - tracking eff. 6% - tower energy scale 2% Au+Au di-jets more imbalanced than p+p for p T cut >2 GeV/c Au+Au A J ~ p+p A J for matched di-jets (R=0.4) Event Fraction p-value < 10 -4 (stat. error only) p-value = 0.8 (stat. error only) 7/2/2015Kolja Kauder, WSU - Hard Probes '158 Central Au+Au anti-k T, R=0.4

9 p T Cut =2 GeV/c p T Lead >20 GeV p T SubLead >10 GeV Method 1: Random Cone (RC): Take di-jet pair p T Cut >2 GeV/c (w/o low p T ) Calculate |A J | with p T Cut >0.2 GeV/c using cone of R the 2 Jet vectors into a central Au+Au MB event Embed randomly p T [GeV/c] η ϕ Method 2: EtaCone (EC): Take di-jet pair p T Cut >2 GeV/c (w/o low p T ) vectors into a Au+Au HT event, 2R away from reconstructed di-jet pair in that event Embed the two Jet Null-Hypothesis: Balance Restored by Uncorrelated BG? 7/2/2015Kolja Kauder, WSU - Hard Probes '159

10 Effect of Background Fluctuations Anti-k T R=0.4, p T Lead >20 GeV & p T SubLead >10 GeV with p T cut >2 GeV/c |A J | Preliminary Method 1 (RC) Method 2 (EC) Sys. Uncertainties: - tracking eff. 6% - tower energy scale 2% Balancing of Au+Au matched di-jets due to correlated signal yield in a cone of R=0.4 Event Fraction 7/2/2015Kolja Kauder, WSU - Hard Probes '15 Central Au+Au anti-k T, R=0.4 10

11 7/2/2015Kolja Kauder, WSU - Hard Probes '1511 R=0.4 p T Cut > 2 GeV/c Jet Selection R=0.4 p T Cut > 1 GeV/c Matched to p T Cut > 0.2 GeV/c R=0.2 Differential Measurements Study Broadening Study Softening Geom. matching:  R<0.4

12 Jet Broadening – Match to R=0.2 7/2/2015Kolja Kauder, WSU - Hard Probes '1512 Sys. Uncertainties: - tracking eff. 6% - tower energy scale 2% For the same R=0.4, p T,1 >20, p T,2 >10 GeV Jets, balance can not be restored within R=0.2  Broadening Preliminary Anti-k T R=0.4 and 0.2, p T Lead >20 GeV & p T SubLead >10 GeV with p T cut >2 GeV/c Central Au+Au anti-k T, R=0.4 p-value = 0.8 (stat. error only) p-value = 2 × 10 -4 (stat. error only)

13 Jet Softening – Match to p T Cut = 1GeV/ c 7/2/2015Kolja Kauder, WSU - Hard Probes '1513 Sys. Uncertainties: - tracking eff. 6% - tower energy scale 2% Preliminary Central Au+Au anti-k T, R=0.4 Anti-k T R=0.4 and 0.2, p T Lead >20 GeV & p T SubLead >10 GeV with p T cut >2 GeV/c p T Cut = 1GeV/c not sufficient to restore balance  signs of jet softening between 1 and 2 GeV/c p-value = 0.8 (stat. error only) p-value =5-20% (stat. error only)

14 For the first time: “Lost” energy of the dijets is recovered in a jet of R=0.4 for p T Cut = 0.2 GeV/c Interpretation: (Constituent) p T Cut = 2 GeV/c + High Tower + (Jet) p T Lead >20 GeV/c  Surface Bias + (Recoil) p T SubLead >10 GeV/c  Path Length Control Contrast to LHC: Large imbalance, balanced at large angles “Unbiased” di-jet selection  longer path lengths & Larger energy loss at early times → more diffusion in medium Discussion 7/2/2015Kolja Kauder, WSU - Hard Probes '1514 STAR: p T lead >15 GeV/c p T cut >2 GeV/c T. Renk, PRC 87, 024905 (2013) CMS, PRC 84, 024906 (2011) LHC: A J Dijet Trigger T. Renk, PRC 85, 064908 (2012)

15 Unique Opportunity for Jet Geometry Engineering at RHIC 7/2/2015  p T SubLead & Constituent p T  systematically dial in the path length of the recoil jet  Dijet Imbalance = Recoil E-loss?  Found a “sweet spot” Lost energy seems to be contained within R=0.4  Matching: Differentially study  Broadening – jet-by-jet  Softening – jet-by-jet  Future: Statistics × 7  Fragmentation function and radial profile of in-medium jet energy loss Kolja Kauder, WSU - Hard Probes '1515 R=0.4,p T Cut >2 GeV/c T. Renk, PRC 87, 024905 (2013) RHIC Advantage: Steeply falling spectrum  Good correlation between jet and original energy

16 Summary 7/2/2015Kolja Kauder, WSU - Hard Probes '1516  Jet reconstruction of leading and recoil jet  Energy loss jet-by-jet instead of ensemble-based  A J : Define a subset of imbalanced di-jets in Au+Au, that can be restored to pp balance  “Lost” energy seems contained within R=0.4 and low p T  Imbalance remains for smaller cone or higher constituent cutoff  Observed Broadening and Softening jet-by-jet

17 Backup 7/2/2015Kolja Kauder, WSU - Hard Probes '1517

18 pp Reference 7/2/2015Kolja Kauder, WSU - Hard Probes '1518 Au+Au HTpp HTCentral Au+Aupp @ Au+Au Cannot compare Compare No correction to particle level. To compare on equal footing: Embed full pp events into (unbiased) central events Tower and efficiency uncertainty studied in pp

19 Event Fraction pp HT Reference and Systematic Errors STAR, PRL 112, 122301 (2014) Reference: pp HT ⊗ AuAu MB Embed pp HT randomly into AuAu 0-20% minimum bias event, adjusted for relative tracking efficiency between pp HT Y06 and AuAu HT Y07 Systematic Uncertainties (Analogous to Jet-Hadron Corr.) - Tracking efficiency uncertainties 6% - Relative Tower energy scale uncertainty 2% - Background/vn: Null-Hypothesis Method1 vs. Method2 - Remaining uncertainties negligible Preliminary 7/2/2015Kolja Kauder, WSU - Hard Probes '1519

20 Di-Jet Imbalance A J Central Au+Au, R=0.2 20 Sys. Uncertainties: - tracking eff. 6% - tower energy scale 2% |A J | Preliminary Event Fraction Anti-k T R=0.2, p T Lead >16 GeV & p T, SubLead >8 GeV with p T cut >2 GeV/c p-value < 10 -10 (stat. error only) p-value < 10 -4 (stat. error only) Matched Au+Au A J ≠ p+p A J for R=0.2 → (recoil) Jet broadening in 0.2 − 0.4 7/2/2015Kolja Kauder, WSU - Hard Probes '15 Central Au+Au anti-k T, R=0.2

21 PYTHIA8 Particle Level (PL) and Toy Bkg. Model Anti-k T R=0.4, p T,1 >20 GeV & p T,2 >10 GeV with p T cut >2 GeV Pythia8 PL Pythia8 PL & Bkg Pythia8 PL & Bkg (v2) Pythia8 PL & Bkg & track eff. Y07 Event Fraction 7/2/2015Kolja Kauder, WSU - Hard Probes '1521

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