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Measurement of Transverse Single-Spin Asymmetries for Forward π 0 and Electromagnetic Jets in Correlation with Midrapidity Jet-like Events at STAR in p+p.

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Presentation on theme: "Measurement of Transverse Single-Spin Asymmetries for Forward π 0 and Electromagnetic Jets in Correlation with Midrapidity Jet-like Events at STAR in p+p."— Presentation transcript:

1 Measurement of Transverse Single-Spin Asymmetries for Forward π 0 and Electromagnetic Jets in Correlation with Midrapidity Jet-like Events at STAR in p+p Collisions at √s = 500 GeV Mriganka Mouli Mondal (for STAR experiment) Texas A&M University HAWAII 2014, Oct. 7-111  Transverse Single Spin Asymmetries (TSSA)  Forward Meson Spectrometer in the STAR experiment  EM-Jets in forward and central rapidity  A N measurements from the 2011 RHIC Run at √s = 500 GeV Outline :

2 TSSA – in the initial state Spin-dependent transverse momentum dependent (TMD) function S T.(Pxk T ) Brodsky, Hwang, Schmidt, 02 Collins, 02, Ji, Belitsky, Yuan, 02 Twist-3 quark-gluon correlations Efremov & Teryaev: 1982 & 1984 Qiu & Sterman: 1991 & 1999 Sivers fct. Q  QCD Q T /P T << Q T /P T Transverse momentum dependent Q>>Q T >=  QCD Q>>p T Collinear/ twist-3 Q,Q T >>  QCD p T ~Q Efremov, Teryaev; Qiu, Sterman Need 2 scales Q 2 and p t Remember pp: most observables one scale Some Exceptions: DY, W/Z-production Need only 1 scale Q 2 or p t But should be of reasonable size should be applicable to most pp observables A N (  0 /  /jet) Intermediate Q T Q>>Q T /p T >>  QCD HAWAII 2014, Oct. 7-112 In additions TSSA can arise from final state effects.

3 π 0 A N Measurements at Forward Rapidity  Rising A N with X F  A N nearly independent of √s  No evidence of fall in A N with increasing P T Transverse Single Spin Asymmetry Inclusive π 0 production x F = 2p Z /√s HAWAII 2014, Oct. 7-113

4 RHIC : the world’s first and only polarized proton collider Beams: √s 62.4 - 500 GeV pp HAWAII 2014, Oct. 7-114 For 2011 : Average Blue Beam Polarization = 51.6% (Transverse) Luminosity =22 pb-1

5 Forward ECAL in STAR Forward Meson Spectrometer (FMS) : -- Pb glass EM calorimeter covering 2.5< η <4.0 -- Detect 0,η, direct photons and jet-like events in the kinematic region where transverse spin asymmetries are known to be large. FMS Pb Glass EM Calorimeter pseudo-rapidity 2.7<  <4.0 Small cells: Outer cells(towers) 3.81x3.81 cm 5.81 x 5.81 cm HAWAII 2014, Oct. 7-115 x F > 0

6 BEMC EEMC FMS FPD TPC BBC ZDC VPD HAWAII 2014, Oct. 7-116 FMS photon reconstruction : towers  clusters  photons shower shape fitting BEMC+EEMC towers : to find central electromagnetic jets FMS photons : to find forward electromagnetic jets STAR detector cross view

7 The 2011 RHIC Run for pp @ √s=500 GeV Forward Electromagnetic Jets (EM-Jets) Jet algorithm : anti-kt R-parameter : 0.7 p T EM-Jet > 2.0 GeV/c Leading EM-Jets : defined as EM-Jets with highest energy. 2.8<η EM-Jet <4.0 40 GeV < Energy EM-Jet < 100 GeV (0.16 < x F < 0.4) # Jets Structure in EM-Jet p T : -- Acceptance non uniformity in small and large tower boundary inside FMS -- Different trigger threshold influence different p T region HAWAII 2014, Oct. 7-117

8 Forward EM-Jet characteristics  2-photon jets are mostly π 0  Events with more than 2 photons show jet-like energy flow No. of photons in leading EM-Jets γγ invariant mass 2-photon EM-jets dE/d(ΔR) distribution of EM-Jets EM-Jet Energy 60-80 GeV Z ϒϒ <0.8, no. photons =2 EM-Jet Energy 60-80 GeV # Jets dE/d(ΔR) (arbitrary scale) HAWAII 2014, Oct. 7-118 m γγ (GeV/c 2 )

9 A N vs. EM-Jet Energy π 0 -Jets – 2γ-EM-Jets with m γγ <0.3 GeV/c 2 Z γγ <0.8 EM-Jets – with no. photons >2  Isolated π 0 ’s have large asymmetries consistent with previous observation (CIPANP-2012 Steven Heppelmann) https://indico.triumf.ca/contributionDisplay.pycontribId=349&sessionId=44&confId=1383  Asymmetries for jettier events are much smaller HAWAII 2014, Oct. 7-119

10 A N for different # photons in EM-Jets  1-photon events, which include a large π 0 contribution in this analysis, are similar to 2- photon events  Three-photon jet-like events have a clear non- zero asymmetry, but substantially smaller than that for isolated π 0 ’s  A N decreases as the event complexity increases (i.e., the "jettiness”  A N for #photons >5 is similar to that for #photons = 5 HAWAII 2014, Oct. 7-1110 Jettier events

11 A N with midrapidity activities HAWAII 2014, Oct. 7-11 η = 1.09,2.0 η = 2.6-4.2 BEMC EEMC FMS η = -1.0,1.0 central EMJets forward EMJets Case-I : having no central jet Case-II : having a central jet Jet algorithm : anti-kt, R = 0.7 p T EM-Jet > 2.0 GeV/c, -1.0<η EM-Jet <2.0 Inputs for central EMJets : towers from BEMC and EEMC Leading central EM-Jets : Jet with highest p T Midrapidity EM Jets 11

12 Δφ correlation between forward and central EMJets HAWAII 2014, Oct. 7-11  Correlation is stronger for more N_photon Jets  For higher EMJets energy, correlation grows stronger 12 Number of photons for forward EMJets : 1,2 3 and more

13 A N for correlated central jets and no central jet cases HAWAII 2014, Oct. 7-1113  Asymmetries for the forward isolated π 0 are low when there is a correlated away-side jet.

14 Conclusion  EM-jets are reconstructed from photons detected in the FMS at STAR.  Jets with isolated π 0 have large asymmetry.  Three-photon jet-like events have a clear non-zero asymmetry, but substantially smaller than that for isolated π 0 ’s.  A N decreases as the event complexity increases(i.e., the "jettiness”)  Isolated π 0 asymmetries are smaller when there is a correlated EM-jet at mid-rapidity.  These dependencies raise serious question how much of the large forward π 0 A N comes from 2  2 parton scattering. HAWAII 2014, Oct. 7-1114

15 Characteristics of Coincident Central EM-Jets (case-II) Energy flow within central EMJets energy sharing (asymmetric scatterings) Forward-central correlations For Central EMJets HAWAII 2014, Oct. 7-1115 p T distribution p T balance (di-jet like) central/forward BACKUP SLIDES

16 A N for with and without a central EM-Jet HAWAII 2014, Oct. 7-1116  An EM-jet in the central rapidity region reduces the asymmetries for the forward isolated π 0 0.06

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