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Jet Quenching in Relativistic Heavy Ion Collisions at the LHC

  • Book
  • © 2014

Overview

Authors:
  1. Aaron Angerami

    1. Physics, Columbia University, New York, USA

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  • Nominated as an outstanding Ph.D. thesis by the ATLAS Collaboration, CERN, Geneva
  • Reports on the first direct observation of jet quenching
  • Presents measurements of jet suppression with fully-reconstructed jets
  • Includes supplementary material: sn.pub/extras

Part of the book series: Springer Theses (Springer Theses)

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Table of contents (7 chapters)

  1. Front Matter

    Pages i-xv
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  2. Introduction

    • Aaron Angerami
    Pages 1-3

  3. Background

    • Aaron Angerami
    Pages 5-60

  4. Experimental Setup

    • Aaron Angerami
    Pages 61-79

  5. Jet Reconstruction

    • Aaron Angerami
    Pages 81-103

  6. Data Analysis

    • Aaron Angerami
    Pages 105-136

  7. Results

    • Aaron Angerami
    Pages 137-158

  8. Conclusion

    • Aaron Angerami
    Pages 159-166

  9. Back Matter

    Pages 167-169
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Keywords

About this book

This thesis presents the first measurements of jets in relativistic heavy ion collisions as reported by the ATLAS Collaboration. These include the first direct observation of jet quenching through the observation of a centrality-dependent dijet asymmetry. Also, a series of jet suppression measurements are presented, which provide quantitative constraints on theoretical models of jet quenching. These results follow a detailed introduction to heavy ion physics with emphasis on the phenomenon of jet quenching and a comprehensive description of the ATLAS detector and its capabilities with regard to performing these measurements.

Authors and Affiliations

  • Physics, Columbia University, New York, USA

    Aaron Angerami

About the author

Aaron Angerami is an experimental nuclear physicist at Columbia University. His research focuses on the study of quantum chromodynamics at high temperatures and densities, specifically on what forms of nuclear matter may exist under these conditions and how the fundamental properties of QCD are manifested in these systems. The medium of deconfined quarks and gluons produced in relativistic heavy ion collisions represents such a system that is experimentally accessible. His research has involved measurements of this medium, particularly through the phenomenon of jet quenching, with the ATLAS detector at the LHC.

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