Speaker
Yayun He
(Central China Normal University)
Description
The observed suppression of inclusive jets in heavy-ion collisions at LHC has a very weak $p_{T}$ dependence over a large range of $p_{T}$ = 50-1000 GeV and is almost independent of the colliding energy, though the initial energy density of the formed QGP has increased significantly from $\sqrt{s}$ = 2.76 to 5.02 TeV. This interesting phenomenon is fully investigated in the linear Boltzmann transport(LBT) model for jet propagation combined event-by-event 3+1D hydro backgrounds. We found that the $p_{T}$ dependence of jet $R_{AA}$ is determined by the initial spectrum in $pp$ collisions and jet quenching in which medium response has a significant contribution. Furthermore, the energy loss distribution is extracted directly from experimental data within a Beyesian method, which provides a model-independent approach to understand jet quenching in detail. The extracted jet energy loss distributions have a scaling behavior and indicate that jet quenching is caused on the average by only a few out-of-cone scatterings.
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Primary authors
Prof.
Xin-Nian Wang
(Central China Normal University/Lawrence Berkeley National Laboratory)
Yayun He
(Central China Normal University)
Co-authors
LongGang Pang
(Central China Normal University)
Tan Luo
(Central China Normal University)
shanshan cao
(wayne state university)
wei chen
(central china normal university)
