A dynamic collimation and alignment system for the Helmholtz linear accelerator

Lauber, Simon; Barth, Winfried; Forck, Peter; Burandt, Christoph; Kürzeder, Thorsten; Heilmann, Manuel; Schwarz, M; Rubin, Anna; Miski-Oglu, Maksym; Basten, Markus; Aulenbacher, Kurt; Dziuba, Florian; Podlech, H.; Yaramyshev, Stepan; List, Julian; Sieber, Thomas; Gettmann, Viktor

doi:10.1063/5.0069824

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@ARTICLE{Lauber:245758,
      author       = {Lauber, Simon and Aulenbacher, Kurt and Barth, Winfried and
                      Basten, Markus and Burandt, Christoph and Dziuba, Florian
                      and Forck, Peter and Gettmann, Viktor and Heilmann, Manuel
                      and Kürzeder, Thorsten and List, Julian and Miski-Oglu,
                      Maksym and Podlech, H. and Rubin, Anna and Schwarz, M and
                      Sieber, Thomas and Yaramyshev, Stepan},
      title        = {{A} dynamic collimation and alignment system for the
                      {H}elmholtz linear accelerator},
      journal      = {Review of scientific instruments},
      volume       = {92},
      number       = {11},
      issn         = {1089-7623},
      address      = {[S.l.]},
      publisher    = {American Institute of Physics},
      reportid     = {GSI-2022-00085},
      pages        = {113306 - 113306-9},
      year         = {2021},
      note         = {"All article content, except where otherwise noted, is
                      licensed under a Creative Commons Attribution (CC BY)
                      license (http://creativecommons.org/licenses/by/4.0/)."},
      abstract     = {The upcoming commissioning of the superconducting (SC)
                      continuous wave Helmholtz linear accelerators first of
                      series cryomodule is going to demand precise alignment of
                      the four internal SC cavities and two SC solenoids. For
                      optimal results, a beam-based alignment method is used to
                      reduce the misalignment of the whole cryomodule, as well as
                      its individual components. A symmetric beam of low
                      transverse emittance is required for this method, which is
                      to be formed by a collimation system. It consists of two
                      separate plates with milled slits, aligned in the horizontal
                      and vertical direction. The collimation system and alignment
                      measurements are proposed, investigated, and realized. The
                      complete setup of this system and its integration into the
                      existing environment at the GSI High Charge State Injector
                      are presented, as well as the results of the recent
                      reference measurements.},
      cin          = {LIN / MDI},
      ddc          = {620},
      cid          = {I:(DE-Ds200)LIN-20160901OR400 /
                      I:(DE-Ds200)MDI-20150313OR334},
      pnm          = {621 - Accelerator Research and Development (POF4-621)},
      pid          = {G:(DE-HGF)POF4-621},
      experiment   = {$EXP:(DE-Ds200)Experiment_without_proposal_number-20200803$},
      typ          = {PUB:(DE-HGF)16},
      pubmed       = {pmid:34852560},
      UT           = {WOS:000723261600001},
      doi          = {10.1063/5.0069824},
      url          = {https://repository.gsi.de/record/245758},
}

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