Darius Keijdener, promovendus aan het Nikhef, verdedigt zijn proefschrift vrijdag 1 september 2023 om 12.15 aan de Universiteit van Utrecht.
“Azimuthal differences of quenched jets”
The study of high-energy partons in heavy ion collisions and proton collisions can provide us with an insight into the strong interaction. These products of hard collisions fragment and hadronize in a parton shower, so-called jets. In heavy ion collision the parton shower is modified in a process called quenching, wherein the parton and its products are interacting with a Quark Gluon Plasma (QGP). Intuitively one would expect the quenching effects to scale with the path length in the medium. A possible observable of the path length dependence uses the naturally occurring azimuthal differences in non-central heavy ion collisions. The elliptic flow observed in these events is linked to the second order event plane. Whether jets are in the direction of this event plane or perpendicular to it might influence the amount of quenching. In this work the difference between jets was studied depending on their angle to the event plane for three different equally large bins. This was done with the study of di-hadron correlation. The combitorinal background is subtracted with a model that connects the background in three plane-bins. Special attention was paid to the roll of the correlations between event planes. This model was tested in a Toy Monte Carlo model. Then the same background model was used in an analysis of the 2011 ALICE data of Lead-Lead collisions. Here several signs are present that the plane dependent trigger background fit (PDF) model does not perform as well as expected on basis of the Toy Monte Carlo Model, especially at lower transverse momenta of the associated particle (pT,a). Several cross checks have been performed to see whether this difference could be explained within the confines of the PDF model. But results for the near-side jet peak are not consistent with the more reliable method of large ∆η (LDE) subtraction, except for pT,a > 3 GeV/c on the near-side and pT,a > 4 GeV/c on the away side. Since an analysis of the away-side is not possible with the LDE model, and the PDF model is not suitable for the high momentum range where statistics is low, a model based on a Fourier analysis of the near-side range is introduced. This reproduces different results as well in the low momentum region. For all these models the Iplane parameters are introduced, a fraction of the associated particle yield from a angle-restricted trigger through a associated particle yield from an aselect trigger. A near-identical analysis is performed in a AMPT Monte Carlo model, where the same inconsistencies are present for the lower pT,a. For both the AMPT Monte Carlo and the ALICE data we can conclude that the LDE results are mostly in between the Fourier and the PDF results. At high pT,a no difference could be found within the current experimental and theoretical constraints. The expected effect of the path length dependence in the AMPT model is not distinguishable within current uncertainties. At lower pT,a the differences between background models are too large to draw conclusion.
De promotie vindt plaats op vrijdag 1 september, om 12.15 in het Academiegebouw, Domplein 29, 3512 JE Utrecht.
Meer informatie op de website van de Universiteit Utrecht.
Promotor: prof. dr. R.J.M. Snellings
Co-promotor: dr. ir. M. van Leeuwen