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Measuring Orbital Angular Momentum through Jet k T. Douglas Fields University of New Mexico/RBRC. Jan Rak, Rob Hobbs, Imran Younus. Outline. How do we measure jet k T ? Correlation functions PHENIX detector Origin of jet k T Spin dependent jet k T Sivers function Something new Summary.
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Measuring Orbital Angular Momentum through Jet kT Douglas Fields University of New Mexico/RBRC Jan Rak, Rob Hobbs, Imran Younus Douglas Fields RHIC-AGS User's Meeting
Outline • How do we measure jet kT? • Correlation functions • PHENIX detector • Origin of jet kT • Spin dependent jet kT • Sivers function • Something new • Summary Douglas Fields RHIC-AGS User's Meeting
How do we measure kt? • 0 - h azimuthal correlation functions Trigger0 Intra-jet pairs angular width : N jT Inter-jet pairs angular width : A jT kT Douglas Fields RHIC-AGS User's Meeting
* jet jT N jet fragmentation transverse momentum, jT-scaling. kT 2F-2N parton transverse momentum,intrinsic + NLO radiative corrections. kT, jT “easy” measurement in p +p fragmentation Douglas Fields RHIC-AGS User's Meeting
Jet Kinematics Douglas Fields RHIC-AGS User's Meeting
PHENIXDetector Overview • East Arm • tracking: • DC, PC1, TEC, PC3 • electron & hadron ID: • RICH,TEC/TRD, • TOF, EMCal • photons: • EMCal • West Arm • tracking: • DC,PC1, PC2, PC3 • electron ID: • RICH, • EMCal • photons: • EMCal Douglas Fields RHIC-AGS User's Meeting
π0 Identification • PHENIX has central arm EMCal with electron rejection in RICH. • Used shower profile cut. • Good S/B at higher pt (>2GeV). Douglas Fields RHIC-AGS User's Meeting
Charged Particles • Tracks in the Drift Chamber • Hits in the Pad Chambers • RICH veto for low momentum • Shower shape cut at high momentum Douglas Fields RHIC-AGS User's Meeting
Correlation Functions • dNreal Δφ distribution from particles in the same event • dNmixed Δφ distribution from particles in different events with similar vertex position • Norm = • Fit to two gaussians plus a constant term 1.5<pT<2.0 Fit = const + Gauss(0)+Gauss() 3.0<pT<4.0 Intra-jet pairs angular width : N jT Inter-jet pairs angular width : A jT kT Douglas Fields RHIC-AGS User's Meeting
How accurately can we measure <kt>? • is extracted from , σF, and fragmentation functions (to get zt) which are extracted from inclusive and associated distributions. Douglas Fields RHIC-AGS User's Meeting
Soft QCD radiation. An example - J/ production. Extra gluon kick pTJ/ =1.80.230.16 GeV/c Phys. Rev. Lett. 92, 051802, (2004). What is the origin of kT? Intrinsic (Confinement) kT 200 MeV/c Breaks collinear factorization Douglas Fields RHIC-AGS User's Meeting
Another Possibility • Spin-Correlated transverse momentum – Partonic orbital angular momentum • We can perhaps measure using jet kT • Sivers Effect in single transverse spin • Possible Effect in double longitudinal spin Douglas Fields RHIC-AGS User's Meeting
Sivers Fcn from Back2Back Analysis Boer and Vogelsang, Phys.Rev.D69:094025,2004, hep-ph/0312320 • Non-Zero Sivers function means that there is a left/right asymmetry in the kT of the partons in the nucleon • For a positive Siver’s function, there will be net parton kT to the left (relative to direction of proton, assuming spin direction is up). • Boer and Vogelsang find that this parton asymmetry will lead to an asymmetry in the distribution of back-to-back jets • There should be more jets to the left (as in picture to the left). • Should also be able to see this effect with fragments of jets, and not just with fully reconstructed jets? • Take some jet trigger particle along ST axis (either aligned or anti-aligned to ST) • Trigger doesn’t have to be a leading particle, but does have to be a good jet proxy • Then look at distribution of away side particles See M. Chiu’s talk tomorrow in the Spin Workgroup Douglas Fields RHIC-AGS User's Meeting
Sivers Effect • Recently, at the RBRC Single Spin Workshop, Denis Sivers gave a nice conceptual (no twist-anything) picture of how orbital angular momentum could cause a single transverse spin asymmetry. • “Quantum Fan” description (top view – spin down): No Sivers Effect without interaction with absorber – Higher twist effect Douglas Fields RHIC-AGS User's Meeting
Positive Helicity Positive Helicity Positive Helicity Negative Helicity “Fields” Effect • Idea came from me trying to understand Sivers effect about one year ago. • I basically got the picture wrong – I couldn’t understand how single transverse spin effects could cause an asymmetry – so I started playing around with double longitudinal spin asymmetries. • Same idea of rotating partons around spin direction • Two classes of collisions: • Like helicity, i.e., • Un-like helicity, i.e., Douglas Fields RHIC-AGS User's Meeting
Peripheral Collisions Larger Peripheral Collisions Larger Central Collisions Smaller Like Helicity(Positive on Positive Helicity) Measure jet Integrate over b, left with some residual kT Douglas Fields RHIC-AGS User's Meeting
Central Collisions Larger Peripheral Collisions Smaller Un-like Helicity(Positive On Negative Helicity) Integrate over b, left with some different residual kT Douglas Fields RHIC-AGS User's Meeting
History • Talked to many people – Werner pointed me to a paper by Meng Ta-chung et al. • “Experiment B” – similar idea, only for Drell-Yan Douglas Fields RHIC-AGS User's Meeting
Total transverse momentum squared of partons For a particular impact parameter, b, the average transverse momentum Where, is the product of the Jacobian and the density profile of partons, and D(b) is the overlap region. From Meng Ta-Chung et al.Phys Rev. D40, p769, (1989) kPR kTR Douglas Fields RHIC-AGS User's Meeting
b The constant terms in pt cancel and we have We can now helicity separate: We can then average over the impact parameter From Meng Ta-Chung et al.Phys Rev. D40, p769, (1989) Like Helicity kPR kTR Un-like Helicity kPR kTR Douglas Fields RHIC-AGS User's Meeting
From Meng Ta-Chung et al.Phys Rev. D40, p769, (1989) • This paper makes the following assumptions: • Uniform spherical density F(b,θP,θT) • kPR~kTR~kR (no dependence on b, θP, θT.) • Then, Evaluated numerically Douglas Fields RHIC-AGS User's Meeting
kPR kTR “Fields” Function • Something like: bT bP Douglas Fields RHIC-AGS User's Meeting
How Large an Effect Can We Expect? Douglas Fields RHIC-AGS User's Meeting
Centrality Dependence • Would be nice to have experimental handle on impact parameter: • Multiplicity • Forward or central • Underlying event… • but, not explicitly necessary. Douglas Fields RHIC-AGS User's Meeting
How accurately can we measure Δ<kt>? • ZT uncertainties should cancel in the difference • Bunch Shuffling in Run3 (PHENIX) • δ Δ<kt> ~ 80MeV Douglas Fields RHIC-AGS User's Meeting
For Run5 • ~10-20 times more statistics than Run3 • Statistical errors smaller by factor of 3-5 • Polarization in Run5 ~55% • Effect larger by factor of ~5 (PY*PB) than Run3 Douglas Fields RHIC-AGS User's Meeting
Summary • Jet kT can be extracted from di-hadron correlations using method developed by J. Rak and others. • Jet kT can be used to probe initial and final state contributions to transverse momentum distributions. • We can make a measurement of the spin dependence of jet <kT> in: • Single transverse spin asymmetries – Sivers Function. • Double-longitudinal spin asymmetry – Fields Function. • These may be sensitive to orbital angular momentum. • Need theoretical guidance… Douglas Fields RHIC-AGS User's Meeting