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@INPROCEEDINGS{Davis:606851,
      author       = {Davis, Naomi and Arling, Jan-Hendrik and Baselga, Marta and
                      Diehl, Leena and Dingfelder, Jochen and Gregor, Ingrid-Maria
                      and Hauser, Marc and Hügging, Fabian and Hemperek, Tomasz
                      and Jakobs, Karl and Karagounis, Michael and Koppenhöfer,
                      Roland and Kröninger, Kevin and Lex, Fabian and Parzefall,
                      Ulrich and Rodriguez, Arturo and Sari, Birkan and
                      Sorgenfrei, Niels and Spannagel, Simon and Sperlich, Dennis
                      and Wang, Tianyang and Weingarten, Jens and Zatocilova,
                      Iveta},
      title        = {{C}haracterisation and simulation of stitched {CMOS} strip
                      sensors},
      journal      = {Nuclear instruments $\&$ methods in physics research /
                      Section A},
      volume       = {1064},
      issn         = {0168-9002},
      address      = {Amsterdam},
      publisher    = {North-Holland Publ. Co.},
      reportid     = {PUBDB-2024-01660},
      pages        = {169407},
      year         = {2024},
      note         = {This work has been reviewed and approved by the CMOS Strip
                      detector collaboration of the universities of Dortmund,
                      Freiburg and Bonn. L:MB},
      abstract     = {In high-energy physics, there is a need to investigate
                      alternative silicon sensor concepts that offer
                      cost-efficient, large-area coverage. Sensors based on CMOS
                      imaging technology present such a silicon sensor concept for
                      tracking detectors.The CMOS Strips project investigates
                      passive CMOS strip sensors fabricated by LFoundry in a 150
                      nm technology. By employing the technique of stitching, two
                      different strip sensor formats have been realised. The
                      sensor performance is characterised based on measurements at
                      the DESY II Test Beam Facility. The sensor response was
                      simulated utilising Monte Carlo methods and electric fields
                      provided by TCAD device simulations.This study shows that
                      employing the stitching technique does not affect the hit
                      detection efficiency. A first look at the electric field
                      within the sensor and its impact on generated charge
                      carriers is being discussed},
      month         = {Dec},
      date          = {2023-12-03},
      organization  = {13th International "Hiroshima"
                       Symposium on the Development and
                       Application of Semiconductor Tracking
                       Detectors, Vancouver (Canada), 3 Dec
                       2023 - 8 Dec 2023},
      cin          = {ATLAS},
      ddc          = {530},
      cid          = {I:(DE-H253)ATLAS-20120731},
      pnm          = {622 - Detector Technologies and Systems (POF4-622)},
      pid          = {G:(DE-HGF)POF4-622},
      experiment   = {EXP:(DE-H253)TestBeamline22-20150101},
      typ          = {PUB:(DE-HGF)16 / PUB:(DE-HGF)8},
      UT           = {WOS:001245892400001},
      doi          = {10.1016/j.nima.2024.169407},
      url          = {https://bib-pubdb1.desy.de/record/606851},
}