Jetting Through The Primordial Universe

R. K. Elayavalli
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Abstract

Collisions of heavy ion nuclei at relativistic speeds (close to the speed of light) creates a high temperature and very dense form of matter, now known to consist of de-confined quarks and gluons, named the quark gluon plasma (QGP). In this thesis, Run1 experimental data from pp and heavy ion collisions at the CERN LHC is analyzed with the CMS detector. The pp jet cross section is compared with next to leading order theoretical calculations supplemented with non perturbative corrections for three different jet radii highlighting better comparisons for larger radii jets. Measurement of the jet yield followed by the nuclear modification factors in proton-lead at 5.02 TeV and lead-lead collisions at 2.76 TeV are presented. A new data driven technique is introduced to estimate and correct for the fake jet contribution in PbPb for low transverse momenta jets. The nuclear modification factors studied in this thesis show jet quenching to be attributed to final state effects, have a strong correlation to the event centrality, a weak inverse correlation to the jet transverse momenta and an apparent independence on the jet radii in the kinematic range studied. These measurements are compared with leading theoretical model calculations and other experimental results at the LHC leading to unanimous agreement on the qualitative nature of jet quenching. This thesis also features novel updates to the Monte Carlo heavy ion event generator JEWEL (Jet Evolution With Energy Loss) including the boson-jet production channels and also background subtraction techniques to reduce the effect of the thermal background. Keeping track of these jet-medium recoils in JEWEL due to the background subtraction techniques significantly improves its descriptions of several jet structure and sub-structure measurements at the LHC. [Shortened abstract]
穿越原始宇宙
重离子核以相对论速度(接近光速)的碰撞产生了一种高温和非常致密的物质形式,现在已知由去限制夸克和胶子组成,命名为夸克胶子等离子体(QGP)。本文利用CMS探测器对CERN大型强子对撞机上pp与重离子碰撞的Run1实验数据进行了分析。pp射流截面与次一级理论计算进行了比较,并对三种不同的射流半径进行了非微扰修正,突出了对大半径射流的更好比较。给出了质子-铅在5.02 TeV和铅-铅碰撞在2.76 TeV时的喷流产率测量和核修饰因子。介绍了一种新的数据驱动技术,用于估计和校正低横动量射流在PbPb中的假射流贡献。本文研究的核修饰因子表明,射流淬火归因于最终状态效应,与事件中心性有很强的相关性,与射流横向动量呈弱的负相关,与所研究的运动范围内的射流半径有明显的独立性。这些测量结果与主要的理论模型计算和大型强子对撞机的其他实验结果进行了比较,得出了射流淬火定性性质的一致结论。本文还介绍了蒙特卡罗重离子事件发生器JEWEL(带有能量损失的射流演化)的新更新,包括玻色子射流产生通道和背景减法技术,以减少热背景的影响。由于背景减法技术,JEWEL对这些射流介质反冲的跟踪大大改善了它对大型强子对撞机中几种射流结构和子结构测量的描述。(缩短抽象)
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