Systematic comparison of jet energy-loss schemes in a realistic hydrodynamic medium

Bass, Steffen A; Majumder, Abhijit; Gale, Charles; Guangyou, Qin; Ruppert, Joerg; Nonaka, Chiho; Renk, Thorsten

doi:10.1103/PHYSREVC.79.024901

Title: Systematic comparison of jet energy-loss schemes in a realistic hydrodynamic medium

Journal Article · Sun Feb 15 00:00:00 EST 2009 · Physical Review. C, Nuclear Physics

DOI:https://doi.org/10.1103/PHYSREVC.79.024901· OSTI ID:21199569

Bass, Steffen A; Majumder, Abhijit ^[1]; Gale, Charles; Guangyou, Qin; Ruppert, Joerg ^[2]; Nonaka, Chiho ^[3]; Renk, Thorsten ^[4]

Department of Physics, Duke University, Durham, North Carolina 27708 (United States)
Department of Physics, McGill University, H3A 2T8, Montreal, Quebec (Canada)
Department of Physics, Nagoya University, Nagoya 464-8602 (Japan)
Department of Physics, University of Jyvaeskylae, P. O. Box 35, FI-40014 (Finland)

We perform a systematic comparison of three different jet energy-loss approaches. These include the Armesto-Salgado-Wiedemann scheme based on the approach of Baier-Dokshitzer-Mueller-Peigne-Schiff and Zakharov (BDMPS-Z/ASW), the higher twist (HT) approach and a scheme based on the Arnold-Moore-Yaffe (AMY) approach. In this comparison, an identical medium evolution will be utilized for all three approaches: this entails not only the use of the same realistic three-dimensional relativistic fluid dynamics (RFD) simulation, but also the use of identical initial parton-distribution functions and final fragmentation functions. We are, thus, in a unique position to not only isolate fundamental differences between the various approaches but also make rigorous calculations for different experimental measurements using state of the art components. All three approaches are reduced to versions containing only one free tunable parameter, this is then related to the well-known transport parameter q. We find that the parameters of all three calculations can be adjusted to provide a good description of inclusive data on R{sub AA} vs transverse momentum. However, we do observe slight differences in their predictions for the centrality and azimuthal angular dependence of R{sub AA} vs p{sub T}. We also note that the values of the transport coefficient q in the three approaches to describe the data differ significantly.

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OSTI ID:: 21199569

Journal Information:: Physical Review. C, Nuclear Physics, Vol. 79, Issue 2; Other Information: DOI: 10.1103/PhysRevC.79.024901; (c) 2009 The American Physical Society; Country of input: International Atomic Energy Agency (IAEA); ISSN 0556-2813

Country of Publication:: United States

Language:: English

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73 NUCLEAR PHYSICS AND RADIATION PHYSICS
COMPARATIVE EVALUATIONS
DISTRIBUTION FUNCTIONS
ENERGY LOSSES
EVOLUTION
FLUID MECHANICS
FORECASTING
FRAGMENTATION
RELATIVISTIC RANGE
SIMULATION
THREE-DIMENSIONAL CALCULATIONS
TRANSVERSE MOMENTUM

Title: Systematic comparison of jet energy-loss schemes in a realistic hydrodynamic medium

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