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@PHDTHESIS{Rossi:449453,
      author       = {Rossi, Edoardo},
      othercontributors = {Gregor, Ingrid-Maria and Garutti, Erika},
      title        = {{C}haracterization of {S}ilicon {M}odules and {S}ensors for
                      the {ATLAS} {I}nner {T}racker {S}trip {D}etector},
      school       = {Universität Hamburg},
      type         = {Dissertation},
      address      = {Hamburg},
      publisher    = {Verlag Deutsches Elektronen-Synchrotron},
      reportid     = {PUBDB-2020-03793, DESY-THESIS-2020-021},
      series       = {DESY-THESIS},
      pages        = {176},
      year         = {2020},
      note         = {Dissertation, Universität Hamburg, 2020},
      abstract     = {For the High-Luminosity LHC, the ATLAS Experiment will
                      replace the current tracking system with an all-silicon
                      detector, the Inner Tracker (ITk), consisting of inner pixel
                      layers and outer strip layers. The ITk Strip Detector will
                      operate in a much harsher environment than the current strip
                      detector, the Semiconductor Tracker (SCT). For this reason,
                      an intense $R\&D$ campaign has been completed to develop new
                      radiation-hard sensors and front-end chips.In this work,
                      test beam measurements performed to characterize ITk Strip
                      prototype modules are presented. The performance of
                      non-irradiated and irradiated modules is evaluated, with a
                      focus on the hit detection efficiency, noise occupancy, and
                      charge collection. The results prove that the current
                      prototype modules will provide excellent performance for the
                      entire lifetime of the High-Luminosity LHC.Based on the test
                      beam results with ITk Strip prototype modules, sensors with
                      a special layout were produced. These sensors consist of
                      five zones withdifferent aluminum layer and strip implant
                      widths. Non-irradiated and irradiated sensors are
                      characterized with electrical and test beam measurements.
                      The results show that the implementation of a wide aluminum
                      layer and strip implant mitigates some of the detrimental
                      effects of radiation damage. The last part of this work
                      deals with the Beam-Induced Background (BIB): particles
                      generated by the interaction of the LHC beam with the
                      surrounding environment. An online monitoring system
                      developed to study the effects of the BIB in the SCT is
                      described in detail.},
      cin          = {ATLAS},
      cid          = {I:(DE-H253)ATLAS-20120731},
      pnm          = {611 - Fundamental Particles and Forces (POF3-611) / PHGS,
                      VH-GS-500 - PIER Helmholtz Graduate School
                      $(2015_IFV-VH-GS-500)$},
      pid          = {G:(DE-HGF)POF3-611 / $G:(DE-HGF)2015_IFV-VH-GS-500$},
      experiment   = {EXP:(DE-H253)LHC-Exp-ATLAS-20150101 /
                      EXP:(DE-H253)TestBeamline22-20150101 /
                      EXP:(DE-H253)TestBeamline21-20150101},
      typ          = {PUB:(DE-HGF)3 / PUB:(DE-HGF)11},
      urn          = {urn:nbn:de:gbv:18-ediss-87585},
      doi          = {10.3204/PUBDB-2020-03793},
      url          = {https://bib-pubdb1.desy.de/record/449453},
}