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@MISC{AlTurany:354723,
      author       = {Al-Turany, Mohammad and Alvarez Pol, Hector and Heil,
                      Michael and Kresan, Dmytro and Mayer, Jan and Rodriguez
                      Sanchez, Jose Luis and Wagner, Vadim},
      othercontributors = {Boretzky, Konstanze and Cabanelas, Pablo and Chatillon,
                          Audrey and Douma, Christiaan and Falduto, Ashton and Feijoo,
                          Martina and Galiana, Elisabet and Garcia, Gabriel and
                          Gasparic, Igor and Graña, Antia and Johansson, Håkan and
                          Heiss, Benjamin and Horvat, Andrea and Inglessi, Alexander
                          and Kelic-Heil, Aleksandra and Klenze, Philipp and Kripko,
                          Aron and Kudaibergenova, Eleonora and Labiche, Marc and
                          Lagni, Andrea and Lihtar, Ivana and Loeher, Bastian and
                          Milhomens da Fonseca, Leandro and Mozumdar, Nikhil and
                          Panin, Valerii and Plag, Ralf and Ponnath, Lukas and
                          Rybalchenko, Alexey and Storck, Sonja and Syndikus, Ina and
                          Taniuchi, Ryo and Tscheuschner, Joachim and Wang, Yanzhao
                          and Whitehead, Matthew and Wongel, Alicia and Xarepe, Manuel
                          and Zanetti, Lorenzo},
      title        = {{R}3{BR}oot {D}ecember 24 {R}elease; dec 24},
      reportid     = {GSI-2024-01198},
      year         = {2024},
      note         = {License GPLv3},
      abstract     = {The R3BRoot software is based on the FairRoot framework and
                      can be used to perform Monte Carlo simulations and
                      experimental data analysis of the R3B (Reactions with
                      Relativistic Radioactive Beams) nuclear physics experiments
                      at the GSI-FAIR research center (Facility for Antiproton and
                      Ion Research). The user can create simulated data and/or
                      perform analysis with the same framework. Geant3 and Geant4
                      transport engines are supported, however, the implemented
                      tasks that create simulated data do not depend on a
                      particular Monte Carlo engine. The framework delivers base
                      classes which enable the users to construct their detectors
                      and/or analysis tasks in a simple way, it also delivers some
                      general functionality like track visualization. Moreover, an
                      interface for reading experimental and/or simulated magnetic
                      field maps is also implemented.},
      cin          = {KRA / R3B@FAIR / CIT},
      cid          = {I:(DE-Ds200)KRA-20150901OR349 / I:(DE-Ds200)Coll-FAIR-R3B /
                      I:(DE-Ds200)CIT-20110310OR121},
      pnm          = {612 - Cosmic Matter in the Laboratory (POF4-612) / 623 -
                      Data Management and Analysis (POF4-623) / FAIR Phase-0 -
                      FAIR Phase-0 Research Program (GSI-FAIR-Phase-0)},
      pid          = {G:(DE-HGF)POF4-612 / G:(DE-HGF)POF4-623 /
                      G:(Ds200)GSI-FAIR-Phase-0},
      experiment   = {$EXP:(DE-Ds200)no_experiment-20200803$},
      typ          = {PUB:(DE-HGF)33},
      doi          = {10.5281/ZENODO.14289530},
      url          = {https://repository.gsi.de/record/354723},
}