2017
DOI: 10.1103/physrevc.96.024909
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Multistage Monte Carlo simulation of jet modification in a static medium

Abstract: The modification of hard jets in an extended static medium held at a fixed temperature is studied using three different Monte-Carlo event generators (LBT, MATTER, MARTINI). Each event generator contains a different set of assumptions regarding the energy and virtuality of the partons within a jet versus the energy scale of the medium, and hence, applies to a different epoch in the space-time history of the jet evolution. For the first time, modeling is developed where a jet may sequentially transition from one… Show more

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Cited by 75 publications
(58 citation statements)
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References 61 publications
(67 reference statements)
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“…These extra contributions lead to an enhancement of the radiative loss rate, compensating for the reduction due to the dead-cone effect. Future improvements on this formalism will require calculations to be done within a multi-stage Monte-Carlo event generator as developed by the JETSCAPE collaboration [11], where the medium modified DGLAP stage, the Gunion-Bertsch and BDMPS phases can be applied over each path travelled by the hard quark.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…These extra contributions lead to an enhancement of the radiative loss rate, compensating for the reduction due to the dead-cone effect. Future improvements on this formalism will require calculations to be done within a multi-stage Monte-Carlo event generator as developed by the JETSCAPE collaboration [11], where the medium modified DGLAP stage, the Gunion-Bertsch and BDMPS phases can be applied over each path travelled by the hard quark.…”
Section: Discussionmentioning
confidence: 99%
“…Such a multi-stage approach was recently applied to the case of light quarks and gluons in Ref. [11]. In that effort, the existence of a high virtuality and low virtuality stage in the radiation from a hard parton, allowed for a natural mechanism for the medium modified jet shape.…”
Section: Introductionmentioning
confidence: 99%
“…[26][27][28][29]. In the case of a Monte Carlo calculation in which hard two-to-two scattering is already included, for example those done within JEWEL [30][31][32][33][34][35], MARTINI [36] or LBT [37][38][39], our results can be used in a different way, namely as a benchmark against which to compare for the purpose of identifying observable consequences of large-angle scattering. The other way in which the results of our calculation will be of value is as a qualitative guide to experimentalists with which to assess how large the effects of interest may turn out to be, namely as a qualitative guide to what the probability is that a parton with a given energy in a jet could scatter by an angle θ.…”
Section: Contentsmentioning
confidence: 99%
“…The variety of jet quenching models, which might seem surprisingly large, is a direct consequence of our theoretical uncertainty. While there is not yet a consistent picture, efforts are being made to further test and constrain MC models; (i) devising new kind of probes, (ii) continuous development of MC modelling and (iii) creation of a useful testing environment that accommodate several different models, like the recent JETSCAPE Collaboration [18]. While they cannot be used as simple black-boxes, jet quenching MC models based on theoretical results are a powerful tool to take full advantage of current (RHIC and LHC) and future accelerator data.…”
Section: Outlook and Summarymentioning
confidence: 99%