1. Direct Photons in Au+Au Collisions Measured with the PHENIX Detector at RHIC
Richard Petti
For the PHENIX Collaboration
Department of Physics and Astronomy
Stony Brook University
WWND 2011
R. Petti WWND11

2. Physics Motivation Direct photons are an important probe of the QGP
Do not interact strongly with the QGP
Emitted at all stages of the fireball evolution
Rich physics at all momenta
High momentum is dominated by hard processes
Modification of the fragmentation function using γ jets
A measured v2 could indicate pre-thermalized flow
Low momentum dominated by thermal radiation
Tells us something about the temperature of the plasma
v2 is very sensitive to thermalization time, τ0
Possibly constrain this with data
R. Petti WWND11

3. Further Physics Motivation
Chatterjee, Srivastava
PhysRevC79, ,’09
A little bit of theory
Assume that beyond some τ0 the system is thermalized
Ideal hydro evolution
The τ0 is varied, while keeping the rapidity density constant
Main points of the paper
v2 of hadrons insensitive to τ0
v2 of thermal photons is
Small τ0 → larger initial temp. → larger QGP contrib. → smaller v2
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4. The PHENIX Detector at RHIC and Techniques for Photon Measurment
Measure photons that directly deposit energy into the EMCal
Works best at higher momentum
Measure virtual photons that internally convert into e+e- pairs
Allows a clean low pT measurement
Yield of virtual photons is related to real photon production
Measure real photons that externally convert in material into e+e- pairs
Complementary to virtual photon method
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5. Measuring Photons in the EMCal
Direct photon pT spectrum
Little/no suppression of photons in central Au+Au
Direct photon v2
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6. Measuring Virtual Photons (I)
Processes which produce photons can also produce virtual photons
Subsequently decay into low-mass e+e- pairs
Electrons can be reconstructed cleanly at low pT
The relation between photon and pair production can be written as
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7. Measuring Virtual Photons (II)
Low mass pairs are made (mass < 0.3 GeV/c2)
Pairs from external photon conversions are removed
Correlated sources of background (cross pairs) are removed by studying like-sign pairs
A cocktail of hadronic decays is calculated with MC and is compared with the data e- 0 e+ 
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8. Compare Mass Distribution to Cocktail
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Phys. Rev. Lett. 104, (2010)

9. Extracting the Fraction of Direct Photons
Enhancement
Fit mass distribution with a two-component function
f(mee) = (1 – r)fc(mee) + rfdir(mee)
Convert fraction r to direct photon yield as dNdir(pT) = r x dNincl(pT)
dNincl(pT) is determined from the yield of e+e- pairs using
R. Petti WWND11
Phys. Rev. Lett. 104, (2010)

10. Low Momentum Direct Photons from the Virtual Photon Method
PHENIX has measured low pT direct photon ratio in various collision systems, showing clear enhancement in A-A
No significant enhancement
R. Petti WWND11
See talk by D. Watanabe, Fri. Feb. 11, 9:00

11. Measuring External Photon Conversions: Identification
PHENIX tracks outside magnetic field
Need to assume the origin
Assume particles come from event vertex
We are interested in conversions in the HBD backplane (radius ≈ 60cm)
Now our assumption is incorrect
Gives pairs an artificial opening angle
Leads to an apparent mass
R. Petti WWND11

12. Some Simulations of Conversions
Full GEANT simulation of photon conversions
Mass = 12MeV

13. Some Simulations of Conversions
Full GEANT simulation of photon conversions
Assume all particles come from a radius of 60cm (ATM)

14. External Conversions – Applying the Cuts
Conversions at the HBD backplane should have no track separation here
Black – all e+/e- pairs
Red – cut on small dphi of the pair
Violet – cut on small dphi and dz at HBD shell
A.U.
A.U.
Alternate Track Model Reco
Normal Reco
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15. Towards a Direct Photon v2 Using External Conversions
We want to know whether direct photons flow
We need three ingredients to calculate the direct photon v2
Need the inclusive photon v2
Need the fraction of direct photons above decay photons (Rγ = Ninc/Nhadron = r+1)
Need the π0 v2 (since most of the inclusive photons are from π0 decays)
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16. Inclusive Photon v2 with External Conversions
0.2
0.1
0.2
0.1
0.2
0.1
photon pT [GeV/c]
photon pT [GeV/c]
photon pT [GeV/c]
Correlate particles to the reaction plane angle
Average of two methods
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17. Inclusive Photon v2 with External Conversions
0.2
0.1
0.2
0.1
0.2
0.1
photon pT [GeV/c]
photon pT [GeV/c]
photon pT [GeV/c]
Compare to Phys. Rev. Lett. 96, (2006) in the open symbols
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18. Getting at the Direct Photon Fraction
Developed a π0 tagging technique to measure photons that come from π0 decays γ π0
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19. Measuring Rγ - The Double Ratio
e+/e- Pair efficiency
e+/e- Pair acceptance
DATA
SIMULATION
Conversion factor
f: Conditional Acceptance of second decay photon
Photon efficiency
Pair acceptance and efficiency cancels in the ratio
Conversion factor cancels
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20. Momentum Spectra Nγincl Nγπ0tag π0 Reconstruction Arbitrary units

21. Summary At low momentum, direct photons can tell us about
Temperature of the plasma
Thermalization time
Looking at dielectron pairs is a nice tool to get a clean direct photon signal at low pT
PHENIX is measuring direct photons in various collisional systems (including baseline p+p and d+Au)
No significant enhancement in the baseline systems, but significant enhancement in A+A
Progress being made on using the external photon technique to measure direct photon v2
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22. Backups
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23. Purity of the Photon Sample
During 2007, half the HBD was removed for repair mid-run
We can analyze the arms separately, with the HBDless arm representing the background
The background observed should be the same in both arms
Indicates that background pairs contribute less than 3% of the total photon yield
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24. Conversion Recalibrator in 2D
HBD conversions
Dalitz
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25. Elliptic Flow (v2) In non-central collisions
Spatial anisotropy → pt anisotropy
Distribution of particles in phi is measured and Fourier decomposed
v2 is a measure of the elliptic flow strength
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