Jet Production in Au+Au Collisions at STAR Alexander Schmah for the STAR Collaboration Lawrence Berkeley National Lab Hard Probes 2015 in Montreal/Canada.

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Presentation transcript:

Jet Production in Au+Au Collisions at STAR Alexander Schmah for the STAR Collaboration Lawrence Berkeley National Lab Hard Probes 2015 in Montreal/Canada

Outline Recoil Jet Reconstruction at STAR Semi-Inclusive Recoil Jet Spectra Large Angle Scattering ( Δ ϕ ) Summary and Outlook

upVPD Magnet TOF BEMC BBC TPC The Solenoidal Tracker At RHIC (STAR) Full azimuthal coverage -1 < η< 1 coverage Electromagnetic calorimeter

Jet Finding at LHC High p T objects, clearly seen over the heavy-ion background  Clear jet identification (at high p T )  But measuring is not straight forward 4 06/29/2015 Alexander Schmah - Hard Probes 2015 Pb+Pb, √s NN = 2.76 TeV

Jet Finding at RHIC Tracks and jets in detector acceptance 5 06/29/2015 Alexander Schmah - Hard Probes 2015 Au+Au, √s NN = 200 GeV Can be “visually” identified Not obvious  background is huge! p T,jet reco = p T - ρ A  Statistical approach needed!

Trigger particle Recoil jet(s) search area Semi-Inclusive Recoil Jets Trigger on high p T hadron  Selection of a high p T process Use all jet candidates on the other azimuthal hemisphere within +/- 45 degree  no fragmentaion bias on recoil side ! Semi-inclusive yield of jets* recoiling from a high p T hadron trigger MeasuredCalculable in pQCD How to deal with combinatorial recoil jets? *charged jets 6 06/29/2015 Alexander Schmah - Hard Probes 2015

Ev. 1 Ev. 2 Ev. 3 Ev. 765 … Pick one random track per real event → add to mixed event Mix only similar centrality, Ψ EP, z-vertex position Mixed event Real events Mixed Event Generation for Jets

Charged Raw Recoil Jet Spectrum: Central Excellent description of low p T SE spectrum with ME Normalization region varied systematically Significant jet signal at p T - ρ A > 10 GeV/c Combinatorial jet background  statistically described by mixed event technique Central Preliminary 8 06/29/2015 Alexander Schmah - Hard Probes 2015

Charged Raw Recoil Jet Spectrum: Reference Reference spectrum: peripheral collisions Much less combinatorial background compared to most central data Excellent signal/background ratio down to 3 GeV/c Peripheral Preliminary 9 06/29/2015 Alexander Schmah - Hard Probes 2015

Reference vs. PYTHIA Background-subtracted spectrum in 60%-80% Au+Au in comparison with smeared* PYTHIA PYTHIA shape + yield in good agreement with 60%-80% data *PYTHIA δ p T Peripheral Preliminary 10 06/29/2015 Alexander Schmah - Hard Probes 2015

Recoil Jet Energy Loss Significant suppression (central/smeared PYTHIA) over whole p T range  energy loss Very similar shape over 4 orders of magnitude Central Preliminary 11 06/29/2015 Alexander Schmah - Hard Probes 2015

Central (Levy prior example) Peripheral (PYTHIA prior example) Unfolding Examples SVD and Bayesian unfolding used Systematic variation of: Prior  {Levy function (T, n), PYTHIA}, regularization parameter, +/-5% efficiency variation, ME normalization, δ p T distribution (single particle embedding, PYTHIA jet embedding) Check based on backfolding χ 2 Preliminary 12 06/29/2015 Alexander Schmah - Hard Probes 2015

Comparison Central-Peripheral: I CP Significant suppression (~0.2) at p T > 10 GeV/c, similar to pion R CP I CP close to 1 at low p T ALICE Larger suppression compared to LHC energies! (caveat: different R compared)  but similar shift in Δ p T (-8+/-2 GeV/c for ALICE) arXiv: [nucl-ex] Preliminary Errors show combined systematics of unfolding (see previous slide) and track reconstruction 13 Δp T = 8 GeV/c 06/29/2015 Alexander Schmah - Hard Probes 2015

 Discrete scattering centers or effectively continuous medium? Large Angle Scattering off the QGP? JHEP 1305 (2013) 031 “Weak” multiple scattering “Strong” Continuous E-loss Scattering probability can give us important information about coupling  strongly/weakly coupled QGP  quasiparticles? 14 06/29/2015 Alexander Schmah - Hard Probes 2015

Phys.Lett. B718 (2013) No additional broadening observed in Pb+Pb compared to p+p so far Pair fraction p T γ > 60 GeV/c p T jet > 30 GeV/c Large Angle Scattering at LHC arXiv: [nucl-ex] 15 06/29/2015 Alexander Schmah - Hard Probes 2015 Pb+Pb, √s NN = 2.76 TeV

16 ΔΦ at high p T, R = 0.3 Δ ϕ = ϕ trig – ϕ jet Projections for different recoil jet p T Gaussian + constant Fit results do not depend on ME normalization Some pedestal for 0%-10%, almost no pedestal for 60%-80% Same width for both centralities Preliminary 06/29/2015 Alexander Schmah - Hard Probes 2015 Preliminary

ΔΦ, at low p T Significant difference at 5 < p T - ρ A < 8 GeV/c  Flow?  Φ dependent normalization needed?  Background from multiple interactions?  More studies needed! Central Peripheral Preliminary 17 06/29/2015 Alexander Schmah - Hard Probes 2015

Outlook 62.4 GeV Jet transport parameter has most likely a Temperature dependence  high statistics 62.4 GeV + full jet reconstruction!  STAR Beam Request for 1.5 B events for next year (under discussion) Phys.Rev. C90 (2014) 1, Preliminary 18 06/29/2015 Alexander Schmah - Hard Probes 2015

Summary Hadron triggered recoil jet spectra New mixed event technique can reproduce combinatorial jet background  Low p T jets accessible, and no bias on recoil jet side  Direct comparison to pQCD calculations possible  Suppression at 20 GeV/c (~0.2) is larger compared to LHC energies (caveat: different R)  Δ ϕ shows no difference between central and peripheral, except for lowest p T (interpretation needs more studies) Outlook Full jet 200 GeV+ more statistics soon Cone size dependence of jet suppression Low energy 62.4 GeV) jet reconstruction 19 06/29/2015 Alexander Schmah - Hard Probes 2015

Thanks!

Background Fluctuations True jet candidate is still contaminated by thermal background  jet momentum is smeared  δp T Embed particles into real events to determine fluctuation Depends little on embedded particle momentum δp T used to unfold the spectrum Smearing of “true” recoil jet due to underlying thermal background Preliminary 21 06/29/2015 Alexander Schmah - Hard Probes 2015

22 R = 0.3, Area Distributions Preliminary 06/29/2015 Alexander Schmah - Hard Probes 2015

23 Width is identical for 0%-10% and 60%-80% for p T > 8 GeV/c Significant difference at low p T  background effect (flow)? ΔΦ width, 0%-10%, R = 0.3 Preliminary 06/29/2015 Alexander Schmah - Hard Probes 2015

Inclusive Jet Reconstruction Trigger particle To suppress the underlying background a high p T hadron trigger is required  Reconstructed jets are biased  Background fluctuations still smear the reconstructed jet energy 24 06/29/2015 Alexander Schmah - Hard Probes 2015

Inclusive Charged Jet Spectra Bayesian unfolding, ~5% jet energy resolution Steeply falling spectrum, biased at low p T due to leading hadron trigger  Next step: R AA Trigger biased 25 06/29/2015 Alexander Schmah - Hard Probes 2015