In-beam test results of the Super-FRS GEM-TPC detector prototype with relativistic uranium ion beam

Luoma, M.; García, F.; Äystö, J.; Blatz, T.; Chokheli, D.; Flemming, H.; Götzen, K.; Grahn, T.; Jokinen, A.; Karagiannis, C.; Kurz, N.; Löchner, S.; Nociforo, C.; Rinta-Antila, S.; Schmidt, C. J.; Simon, H.; Turpeinen, R.; Voss, B.; Wieczorek, P.; Winkler, M.

doi:10.1016/j.nima.2023.168262

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Luoma, M., García, F., Äystö, J., Blatz, T., Chokheli, D., Flemming, H., Götzen, K., Grahn, T., Jokinen, A., Karagiannis, C., Kurz, N., Löchner, S., Nociforo, C., Rinta-Antila, S., Schmidt, C. J., Simon, H., Turpeinen, R., Voss, B., Wieczorek, P., & Winkler, M. (2023). In-beam test results of the Super-FRS GEM-TPC detector prototype with relativistic uranium ion beam. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 1052, Article 168262. https://doi.org/10.1016/j.nima.2023.168262

Julkaistu sarjassa

Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

Tekijät

Luoma, M. |

García, F. |

Äystö, J. |

Blatz, T. |

Chokheli, D. |

Flemming, H. |

Götzen, K. |

Grahn, T. |

Jokinen, A. |

Karagiannis, C. |

Kurz, N. |

Löchner, S. |

Nociforo, C. |

Rinta-Antila, S. |

Schmidt, C. J. |

Simon, H. |

Turpeinen, R. |

Voss, B. |

Wieczorek, P. |

Winkler, M.

Päivämäärä

2023

Tekijänoikeudet

As an essential part of the Super-FRS particle identification, the GEM-TPC detector in a twin field-cage configuration will provide position information at up to 1 MHz counting rate with a spatial resolution < 1 mm and with tracking efficiency >95 %. This detector is designed to provide particle-beam tracking information of projectiles ranging from protons to uranium. The performance of the GEM-TPC detector in a single field-cage configuration and newly integrated AWAGS readout electronics with a differential output was studied at the FRS for the response to the uranium beam at 850 MeV/u with intensity up to 1000 ions/spill. The result shows that a clusterization algorithm developed for this analysis works properly. The spatial resolution of 0.74–0.81 mm, a detection efficiency >99 %, and a tracking efficiency >96 % were found. This work describes the methodology used to achieve such results in detail.

Julkaisija

Elsevier BV

ISSN Hae Julkaisufoorumista

0168-9002

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