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Searches for new phenomena in inclusive and tagged dijet distributions at √s = 13 TeV

Poulsen, Trine LU (2020)
Abstract
Dijets are produced in abundance at the Large Hadron Collider as predicted by quantum chromodynamics (QCD). However, several theories beyond the Standard Model of Particle Physics predicts new phenomena, which also result in dijet final states. This thesis presents searches for such new phenomena using different techniques. One approach is to look for jets, that originate from top quarks. We know, that the top quark, being the heaviest fundamental particle, has a large coupling to the Higgs field. Therefore, it is appealing to think, that the top quark could play a special role in understanding the fine tuning problem of the Higgs mass. One model of interest is the topcolor assisted technicolor, which predicts a Z'TC2 boson,... (More)
Dijets are produced in abundance at the Large Hadron Collider as predicted by quantum chromodynamics (QCD). However, several theories beyond the Standard Model of Particle Physics predicts new phenomena, which also result in dijet final states. This thesis presents searches for such new phenomena using different techniques. One approach is to look for jets, that originate from top quarks. We know, that the top quark, being the heaviest fundamental particle, has a large coupling to the Higgs field. Therefore, it is appealing to think, that the top quark could play a special role in understanding the fine tuning problem of the Higgs mass. One model of interest is the topcolor assisted technicolor, which predicts a Z'TC2 boson, that would appear as a resonance in the invariant mass spectrum. Limits are set on this theory by using the 139 fb−1 of data collected at √s = 13 TeV by ATLAS.
Another approach is to have a more inclusive selection and not only look at the invariant mass spectrum, but also the angular distribution of the two jets. This makes it possible to look for non­-resonant signals like those coming from a contact interaction with a compositeness scale, Λ, which is much higher than the center­ ­of mass energy at the Large Hadron Collider. Limits are set on this theory by using 37 fb−1 of data. Studies, conducted to improve this analysis, are also presented.
A prerequisite to perform these searches is to have well­-calibrated jets. Different methods are used to calibrate the jets at different transverse momentum, pT, ranges. In order to calibrate high­ pT jets, the calorimeter response to the single particles, that make up the jet, is studied. In this way it is possible to estimate the uncertainty on the jet energy scale at the highest pT, where there are very few events in data. (Less)
Please use this url to cite or link to this publication:
author
supervisor
opponent
  • Professor Florencia Canelli, ETH Zurich
organization
publishing date
type
Thesis
publication status
published
subject
pages
232 pages
publisher
Lund University
defense location
Rydbergssalen, Fysiska institutionen, Professorsgatan 1, Lund Join via zoom: https://lu-se.zoom.us/j/66083054241?pwd=T3NSTEEybXowSTBWaGpXczVwK3QyZz09 Password: 936709
defense date
2020-09-25 13:00:00
ISBN
978-91-­7895-­617-­3
978­-91-­7895-­616-­6
language
English
LU publication?
yes
id
7c9be6fa-f0e2-4c64-909a-12de3bf3985e
date added to LUP
2020-08-27 11:13:35
date last changed
2020-12-30 08:38:57
@phdthesis{7c9be6fa-f0e2-4c64-909a-12de3bf3985e,
  abstract     = {{Dijets are produced in abundance at the Large Hadron Collider as predicted by quantum chromodynamics (QCD). However, several theories beyond the Standard Model of Particle Physics predicts new phenomena, which also result in dijet final states. This thesis presents searches for such new phenomena using different techniques. One approach is to look for jets, that originate from top quarks. We know, that the top quark, being the heaviest fundamental particle, has a large coupling to the Higgs field. Therefore, it is appealing to think, that the top quark could play a special role in understanding the fine tuning problem of the Higgs mass. One model of interest is the topcolor assisted technicolor, which predicts a Z'<sub>TC2</sub> boson, that would appear as a resonance in the invariant mass spectrum. Limits are set on this theory by using the 139 fb<sup>−1</sup> of data collected at √s = 13 TeV by ATLAS.<br/>Another approach is to have a more inclusive selection and not only look at the invariant mass spectrum, but also the angular distribution of the two jets. This makes it possible to look for non­-resonant signals like those coming from a contact interaction with a compositeness scale, Λ, which is much higher than the center­ ­of mass energy at the Large Hadron Collider. Limits are set on this theory by using 37 fb<sup>−1</sup> of data. Studies, conducted to improve this analysis, are also presented.<br/>A prerequisite to perform these searches is to have well­-calibrated jets. Different methods are used to calibrate the jets at different transverse momentum, p<sub>T</sub>, ranges. In order to calibrate high­ p<sub>T</sub> jets, the calorimeter response to the single particles, that make up the jet, is studied. In this way it is possible to estimate the uncertainty on the jet energy scale at the highest p<sub>T</sub>, where there are very few events in data.}},
  author       = {{Poulsen, Trine}},
  isbn         = {{978-91-­7895-­617-­3}},
  language     = {{eng}},
  publisher    = {{Lund University}},
  school       = {{Lund University}},
  title        = {{Searches for new phenomena in inclusive and tagged dijet distributions at √s = 13 TeV}},
  url          = {{https://lup.lub.lu.se/search/files/83125582/Trine_Poulsen_complete.pdf}},
  year         = {{2020}},
}