Design of the magnet system of the neutron decay facility PERC

Design of the magnet system of the neutron decay facility PERC

The PERC (Proton and Electron Radiation Channel) facility is currently under construction at the research reactor FRM II, Garching. It will serve as an intense and clean source of electrons and protons from neutron beta decay for precision studies. It aims to contribute to the determination of the C...

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Veröffentlicht in:EPJ Web Conf 2019, Vol.219, p.4007
Hauptverfasser: Wang, Xiangzun, Ziener, Carmen, Abele, Hartmut, Bodmaier, Stefan, Dubbers, Dirk, Erhart, Jaqueline, Hollering, Alexander, Jericha, Erwin, Klenke, Jens, Fillunger, Harald, Heil, Werner, Klauser, Christine, Konrad, Gertrud, Lamparth, Max, Lauer, Thorsten, Klopf, Michael, Maix, Reinhard, Märkisch, Bastian, Mach, Wilfried, Mest, Holger, Moser, Daniel, Pethoukov, Alexander, Raffelt, Lukas, Rebrova, Nataliya, Roick, Christoph, Saul, Heiko, Schmidt, Ulrich, Soldner, Torsten, Virot, Romain, Zimmer, Oliver
Format: Artikel
Sprache:eng
Schlagworte:
Beta decay
Couplings
Data search
Electron radiation
Instrumentation and Detectors
Magnetic properties
Neutron decay
Neutrons
Nuclear Experiment
Physics
Protons
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Zusammenfassung:The PERC (Proton and Electron Radiation Channel) facility is currently under construction at the research reactor FRM II, Garching. It will serve as an intense and clean source of electrons and protons from neutron beta decay for precision studies. It aims to contribute to the determination of the Cabibbo-Kobayashi-Maskawa quark-mixing element V ud from neutron decay data and to search for new physics via new effective couplings. PERC's central component is a 12 m long superconducting magnet system. It hosts an 8 m long decay region in a uniform field. An additional high-field region selects the phase space of electrons and protons which can reach the detectors and largely improves systematic uncertainties. We discuss the design of the magnet system and the resulting properties of the magnetic field.
ISSN:2100-014X
2101-6275
2100-014X
DOI:10.1051/epjconf/201921904007