SUBA-Jet: a new Model for Jets in Heavy Ion Collisions
Iurii Karpenko, Alexander Lind, Martin Rohrmoser, Joerg Aichelin,, Pol-Bernard Gossiaux
TL;DR
SUBA-Jet introduces a comprehensive Monte Carlo model for jet quenching in quark-gluon plasma, combining perturbative vacuum showers with medium-induced elastic and radiative energy loss, validated against established predictions.
Contribution
It presents a novel integrated model for jet energy loss in QGP, incorporating coherent radiation effects and validated through comparison with BDMPS-Z predictions.
Findings
Successfully reproduces BDMPS-Z gluon energy spectrum.
Analyzes parameter effects on energy and momentum distributions.
Extends model to realistic medium conditions.
Abstract
We present a new model for jet quenching in a quark gluon plasma (QGP). The jet energy loss has two steps. The initial jet parton with a high virtuality loses energy by a perturbative vacuum parton shower modified by medium interactions until it becomes on shell. Subsequent energy loss originates from elastic and radiative collisions with the medium constituents. Coherency of the radiative collisions is achieved by starting with virtual gluons that act as field dressing of the initial jet parton. These are formed according to a Gunion-Bertsch seed. The QCD version of the LPM effect is obtained by increasing the phase of the virtual gluons through elastic scatterings with the medium. Above a phase threshold, the virtual gluons will be formed and can produce coherent radiation themselves. The model has been implemented in a Monte Carlo code and is validated by successfully reproducing the…
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