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Flow effects on jet profile N. Armesto 2nd International Conference on Hard and Electromagnetic Probes of High-Energy Nuclear Collisions Asilomar Conference.

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Presentation on theme: "Flow effects on jet profile N. Armesto 2nd International Conference on Hard and Electromagnetic Probes of High-Energy Nuclear Collisions Asilomar Conference."— Presentation transcript:

1 Flow effects on jet profile N. Armesto 2nd International Conference on Hard and Electromagnetic Probes of High-Energy Nuclear Collisions Asilomar Conference Grounds, June 9th-16th, 2006 Néstor Armesto Departamento de Física de Partículas and Instituto Galego de Física de Altas Enerxías Universidade de Santiago de Compostela 1 See the talks by M. Djordjevic, R. Fries, R. Hwa, G. Ma, A. Majumder, K. Rajagopal, T. Renk, C. Salgado, E. Shuryak, I. Vitev, U. Wiedemann, and many experimental talks...

2 Contents N. Armesto Flow effects on jet profile 1. Motivation. 2. Radiation in a flowing medium (with C. A. Salgado and U. A. Wiedemann, PRL93 (2004) 242301; PRC72 (2005) 064910) 3. v 2, and the determination of qhat. (with C. A. Salgado and U. A. Wiedemann, PRC72 (2005) 064910; T. Renk and J. Ruppert, C72 (2005) 044901; T. Renk, hep-ph/0602045) 4. Conclusions. 2 For other proposals, see S. A. Voloshin, nucl-th/0312065.

3 1. Motivation (I) N. Armesto Flow effects on jet profile 3 Unsatisfactory aspects in available formalisms for radiative eloss: Eskola et al '04 (Quark Matter 05) Dainese, talk at PANIC05  s =1/3-1/2 Dainese et al '04 STAR'06

4 1. Motivation (II) N. Armesto Flow effects on jet profile 4 Suggestive (preliminary) experimental data: d+Au, 40-100% Au+Au, 0-5% 3 < p T (trig) < 6 GeV 2 < p T (assoc) < p T (trig) Magestro at HP04 STAR Preliminary near: |  |<1.1, |  |<1.4 away: |  |<2, |  |<1.1 4<p t trig <6 GeV, 0.15<p t ass <4 GeV F.Wang at QM04

5 1. Motivation (III) N. Armesto Flow effects on jet profile 5 Salgado, Wiedemann, '04 ● Jet shapes and associated multiplicities will be measured at the LHC by ALICE, ATLAS and CMS (see the talks by the LHC exps.). ● Compromise between energy calibration and fluctuations: Measurable jet shapes:

6 1. Motivation (IV) N. Armesto Flow effects on jet profile 6 Dilution of the medium already taken into account (Baier et al, '98; Gyulassy, Vitev, Wang, '01; Salgado, Wiedemann, '02; '03): But what if the hard parton is not produced in the frame comoving with the medium, either longitudinally or transversely?

7 2. Radiation in a flowing medium (I) N. Armesto Flow effects on jet profile 7 Usual assumption: c~2 (pQCD); c~10 (Eskola et al, '04; Dainese et al '04) from RHIC R AA light analysis. The success of ideal hydro: For  =0.5, 1, 1.5, one gets  p/p=1,5,18 which may lead to a substantial increase in radiative eloss.

8 2. Radiation in a flowing medium (II) N. Armesto Flow effects on jet profile 8 Assumption for longitudinal expansion: hard partons are not produced in the medium comoving frame, so momentum exchanges with the radiating partons become anisotropic. At first order in the opacity expansion (Gyulassy, Levai, Vitev, '00; Wiedemann, '00) In the comoving frame, ~  s n    L  ; flow contribution q 0 ~ . Our ansatz

9 2. Radiation in a flowing medium (III) N. Armesto Flow effects on jet profile 9 We compute Energy deposition asymmetric due to: ● Random emission. ● t- or p T -ordering in emission. ● Jacobian: Vacuum: D0 parametrization (Abbott et al, '97) ; vacuum (medium) regulated for R<0.04 (0.01).

10 2. Radiation in a flowing medium (IV) N. Armesto Flow effects on jet profile 10 q 0 = ,  E med =23 GeV, E jet =100 GeV. Symmetrized  Low shift in the calorimetric center. Asymmetry clearly visible.

11 3. v 2, and the determination of qhat (I) N. Armesto Flow effects on jet profile 11 The defect in v 2 triggers the inclusion of flow effects: in terms of the BDMPS parameters compute Our proposal:  nTnT

12 3. v 2, and the determination of qhat (II) N. Armesto Flow effects on jet profile 12 Using a blast wave parametrization of flow profile at freeze-out (Lisa, Retiere, '03). Flow may affect our extraction of qhat.

13 3. v 2, and the determination of qhat (III) N. Armesto Flow effects on jet profile 13 Renk, Ruppert, PRC72(2005)044901: dynamical model for expansion, LO, quenching weights. c=4,  s =0.3, v T i =0.1  s =0.45 ● c~10 with no flow effect. ● Small longitudinal effect for  ● Sensitive to initial flow and to flow profile. ● A 'moderately optimistic scenario' leads to c~2 (pQCD).

14 3. v 2, and the determination of qhat (IV) N. Armesto Flow effects on jet profile 14 Renk, hep-ph/0602045: associated particle production from dAu. p Ttrig >8 GeV, 4<p Tass <6 GeV ● Surface emission weakened. ● Yields/trigger reproduced. Dainese et al, '04

15 Determination of qhat? N. Armesto Flow effects on jet profile 15 ● Analysis of R AA for light particles with quenching weights, geometry and Bjorken expansion give qhat~10 GeV 2 /fm (4-15; dN g /dy~1000(-3500)). ● R AA for electrons shows uncertainties to be clarified. ● More stringent upper bound to come, hopefully, from less inclusive measurements. ● pQCD predicts values ~5 times smaller; lower bound. ● AdS/CFT correspondence give values ~3 GeV 2 /fm for T~300 MeV: upper bound? ● Consideration of flow may reduce qhat. STAR‘ 06

16 4. Conclusions N. Armesto Flow effects on jet profile 16 ● Flow should modify the pattern of medium-induced radiation if the hard parton is produced in a frame not comoving with the medium. Even the absence of such effect would tell us about its dynamical expansion. ● An exploratory study illustrates two examples of such effect: * Longitudinal elongation of the jet shape. * Moderate increase of v 2. ● More elaborated implementations show the influence on the determination of the transport coefficient and on the picture of the medium: flow may mimic the effect of a larger energy density. ● More exclusive studies than R AA will be crucial, together with heavy flavors, to set this matter: hadrons at RHIC and the LHC, and calorimetric measurements at the LHC. This demands new theoretical tools under development.

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