PHENIX Jet Results (1/ 19) D.V. Perepelitsa Introduction Jets in PHENIX Gaussian Filter Analysis Techniques p+p Cu+Cu d+Au nPDF effects Outlook Reconstructed Jet Results in p+p, d+Au and Cu+Cu collisions at 200 GeV from PHENIX Dennis V. Perepelitsa Columbia University for the PHENIX Collaboration Hard Probes 2012 Cagliari, Sardinia, Italy 31 May 2012
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PHENIXJet Results
(1/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Reconstructed Jet Resultsin p+p, d+Au and Cu+Cu collisions
at 200 GeV from PHENIX
Dennis V. PerepelitsaColumbia University
for the PHENIX Collaboration
Hard Probes 2012Cagliari, Sardinia, Italy
31 May 2012
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PHENIXJet Results
(2/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Jets in Heavy Ion Collisions
0 0.5 1
Eve
nt F
ract
ion
0.1
0.2 =7.0 TeVspp
PYTHIA
CMS -1L dt = 35.1 pb∫
, R=0.5TAnti-k
(a)
0 0.2 0.4 0.6 0.8 1
Eve
nt F
ract
ion
0
0.1
0.2
20-30%
(d) 0.2 0.4 0.6 0.8 1
0.1
0.2 =2.76 TeVNNsPbPb
PYTHIA+DATA
50-100%
(b)
Iterative Cone, R=0.5
-1bµL dt = 6.7 ∫
)T,2
+pT,1
)/(pT,2
-pT,1
= (pJA0.2 0.4 0.6 0.8 1
0.1
0.2
10-20%
(e) 0.2 0.4 0.6 0.8 1
0.1
0.2
30-50%
(c)
> 120 GeV/cT,1
p
> 50 GeV/cT,2
p
π32 >
12φ∆
0.2 0.4 0.6 0.8 1
0.1
0.2
0-10%
(f)
I Jet reconstruction is being done in heavy ion collisions at RHICand the LHC:
I Reconstruct full fragmenting parton kinematics at LO.
I Sensitive probe of suppression/quenching effects.
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PHENIXJet Results
(3/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Why Jets at RHIC?
I Complementary set of measurements from two high statisticscolliders!
I Can measure jet modification at:
I lower energies due to smaller underlying event
I different x and Q2 (different mixture of quark and gluon jets)
I Versatility of collision species provides:
I ability to vary system size, energy density, geometry
I control against cold nuclear matter effects
⇒ hard probes analyses from Cu+Au and U+U in progress!
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PHENIXJet Results
(4/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
PHENIX detector
I Drift Chamber (DC), Pad Chambers (PC) and Ring ImagingČerenkov Detector (RICH) measure charged hadrons and electrons
I Electromagnetic Calorimeter (EMCal) clusters photons, π0’s,(some) neutral hadrons
I EMCal/RICH Trigger (ERT) and the high PHENIX DAQ rateallow complementary Minimum Bias and high-pT triggereddatasets
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PHENIXJet Results
(5/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Gaussian Filter algorithm
I Seedless, cone-like algorithm with a Gaussian angular weighting(nucl-ex/0806.1499)
pjetT ≡ max{∫ ∫
dη′dφ′pT(η′, φ′
)e−(∆η
2+∆φ2)/2σ2}
I Developed for use in heavy ion collisions.
I Focuses on the energetic core of the jet, optimizing S/B
I Stabilizes the jet axis in the presence of background
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PHENIXJet Results
(6/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Fake jet rejection
I Technique to separate low-pT jets from underlying eventfluctuations in HI collisions on a jet by jet basis.
I Similar to “angularly-weighted” pT which rewards jets with a tightcore of energy and punishes diffuse jets.
⇒ efficient saturation with reconstructed pT⇒ trade reconstruction efficiency for sample purity⇒ data-driven approaches set threshold
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PHENIXJet Results
(7/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Energy Scale
I In PHENIX, energy “resolution” driven by tracking inefficiency,loss of n,K 0L neutral energy, edge of acceptance effects.
I PYTHIA Tune A 2→ 2 QCD events from Q2 = 0.5 to 64 GeV.
⇒ Cross-checks with HERWIG, other PYTHIA tunes⇒ Embedding into real heavy ion background.
I NLO calculation + hadronization correction in progress that willallow proper comparison to data.
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PHENIXJet Results
(8/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Jets in p+p at√s = 200 GeV
I Demonstration of PHENIX jet reconstruction and gaussian filteralgorithm capability:
I comparison with NLO pQCD across ten orders of magnitude.
I Fragmentation function (z = pparticle|| /pjet) measurement:
I required development of n-dimensional generalization of
SVD unfolding in GURU!
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PHENIXJet Results
(9/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Jets in Cu+Cu at√s = 200 GeV
I pT-feeding from underlying event:
I subtraction of centrality- and z-vertex parameterized average
background
I pT-smearing from UE fluctuations:
I evaluated through embedding p+p jets into Cu+Cu
minimum bias events
I results shown here unfolded to p+p reconstructed scale
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PHENIXJet Results
(10/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Suppression without de-correlation in Cu+Cu
I Suppression of reconstructed jet RAA:
⇒ over a wide pT range
⇒ increasing suppression in more central collisions
I Reconstructed di-jet ∆φ distributions unmodified:
⇒ no angular de-correlation in central collisions!
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PHENIXJet Results
(11/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Jets in d+Au at√s = 200 GeV
(GeV/c)recT
p0 10 20 30
CP
R
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6 = 200 GeVNNsd+Au 0-20%/60-88%
0πPHENIX 2007
(PRL 98 172302)
Preliminary
jetTR=0.3 anti-k
(GeV/c)recT
p0 10 20 30
CP
R
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6 = 200 GeVNNsd+Au 40-60%/60-88%
0πPHENIX 2007
(PRL 98 172302)
Preliminary
jetTR=0.3 anti-k
I anti-kT jet reconstruction with R = 0.3, 0.5
I Reconstructed jet RCP at the p+p reconstructed scale.
I relative to peripheral collision baselineI pT-feeding from modest underlying event evaluated with
embedding procedure and unfolded
I Suppression effect consistent with single-particle π0 measurement.
⇒ cold nuclear matter energy loss?⇒ impact parameter dependence of nPDFs?
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PHENIXJet Results
(12/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Jets in d+Au at√s = 200 GeV
(GeV/c)recT
p15 20 25 30 35
CP
R
0.6
0.8
1
1.2
1.4
1.6
1.8
2
PHENIX Preliminary
= 200 GeVNNsd+Au
jetTR=0.3 anti-k
0-20%/60-88%CPR
20-40%/60-88%CPR
40-60%/60-88%CPR
(GeV/c)recT
p15 20 25 30 35
CP
R
0.6
0.8
1
1.2
1.4
1.6
1.8
2
PHENIX Preliminary
= 200 GeVNNsd+Au
jetTR=0.5 anti-k
0-20%/60-88%CPR
20-40%/60-88%CPR
40-60%/60-88%CPR
I Multiple cone sizes provide additional control against effects ofunderlying event
I RCP exhibits increasing suppression with decreasing impactparameter
I Ongoing improvements to analysis will produce:
I RdA
I lower pT behavior
I results at ptruthT scale
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PHENIXJet Results
(13/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
nPDF effects in d+Au RCP
I Nuclear PDF sets do not parameterize impact parameterdependence:
⇒ K. Eskola, Plenary 4B and I. Helenius, Parallel VC
I Leading-order toy study with EPS09 parameters
(nucl-th/1011.4534):
⇒ quadratic b-dependence of Au nPDF from PHENIX J/ψdata, (PRL 107, 142301 (2011))
⇒ suppression from nPDF effects underpredicts data
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PHENIXJet Results
(14/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Outlook
I Jet reconstruction efforts at PHENIX are ongoing.
I Preliminary results from d+Au jet reconstruction:
⇒ suppression effect at high-pT⇒ consequences for interpretation of A+A results!
I PHENIX capability for jet measurements improving:
⇒ VTX (silicon vertex tracker) and FVTX (forward siliconvertex tracker)
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PHENIXJet Results
(15/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
BACKUP
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PHENIXJet Results
(16/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Backup Plots I
(GeV/c)T
p0 2 4 6 8 10 12 14 16 18 20
A
A R
00.20.40.60.8
11.21.4
1.61.8
22.22.4 = 200 GeV, 0-10% most centralNNsPHENIX Au+Au,
(arXiv:1205.5759)γdirect (PRL101, 232301)0π
(PRC82, 011902)η (PRC83, 024090)φ
p (PRC83, 064903)
0-20% cent. (PRL98, 232301)ψJ/ 0-20% cent. (PRC84, 044902)ω
(PRC84, 044905)HF±e (PRC83, 064903)+K
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PHENIXJet Results
(17/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Backup Plots II
gσdis(η, φ) ≡∑
i∈fragment
(pT )2i exp
(−(∆η2 + ∆φ2)/2σ2dis
)
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PHENIXJet Results
(18/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Backup Plots III
(rad)φ∆0 1 2 3 4 5 6
)φ∆)(
dN
/dd
i-je
t/Nπ
(2
0
2
4
6
8
10
12
14
φ∆ di-jet TR=0.3 anti-k
d+Au 0-20%
> 5 GeV/cdAuT
p⊗ > 13.3 GeV/c dAuT
p
> 5 GeV/cdAuT
p⊗ 10-13.3 GeV/c ∈ dAuT
p
> 5 GeV/cdAuT
p⊗ 8-10 GeV/c ∈ dAuT
p
> 5 GeV/cdAuT
p⊗ 6.7-8 GeV/c ∈ dAuT
p
> 5 GeV/cdAuT
p⊗ 5-6.7 GeV/c ∈ dAuT
p
PHENIX Preliminary
(GeV/c)out
p0 1 2 3 4 5 6
)o
ut
)(d
N/d
pd
i-je
t (
1/N
0
0.1
0.2
0.3
0.4
0.5
0.6
0-20%
20-40%40-60%60-88%
di-jetsTR=0.3 anti-k
> 6 GeV/cdAuT
p⊗ > 6 GeV/c dAuT
p
PHENIX Preliminary
/4π < 5φ∆/4 < π3
pout (= 〈kT 〉) ≡ (pT)low · sin ∆φ
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PHENIXJet Results
(19/ 19)
D.V. Perepelitsa
Introduction
Jets in PHENIX
Gaussian Filter
Analysis Techniques
p+p
Cu+Cu
d+Au
nPDF effects
Outlook
Backup Plots IV
(GeV/c)Tp2 4 6 8 10 12 14 16
dA
R0.8
1
1.21.4
1.60-20 %
0.8
1
1.2
1.4
1.620-40 %
0.8
1
1.2
1.4
1.640-60 %
0.8
1
1.2
1.4
1.660-88 %
(GeV/c)Tp0 2 4 6 8 10 12 14 16
0.6
0.81
1.2
1.4
1.6min bias
π η0
Phys. Rev. Lett. 98, 172302 (2007)
IntroductionJets in PHENIXGaussian FilterAnalysis Techniques
p+pCu+Cud+AunPDF effects
Outlook
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