The KATRIN Superconducting Magnets: Overview and First Performance   Results

M. Arenz; W.-J. Baek; M. Beck; A. Beglarian; J. Behrens; T. Bergmann,; A. Berlev; U. Besserer; K. Blaum; T. Bode; B. Bornschein; L. Bornschein; T.; Brunst; N. Buzinsky; S. Chilingaryan; W. Q. Choi; M. Deffert; P. J. Doe; O.; Dragoun; G. Drexlin; S. Dyba; F. Edzards; K. Eitel; E. Ellinger; R. Engel; S.; Enomoto; M. Erhard; D. Eversheim; M. Fedkevych; J. A. Formaggio; F. M.; Fr\"ankle; G. B. Franklin; F. Friedel; A. Fulst; n W. Gil; F. Gl\"uck; A.; Gonzalez Ure\~na; S. Grohmann; R. Gr\"ossle; R. Gumbsheimer; M. Hackenjos; V.; Hannen; F. Harms; N. Hau{\ss}mann; F. Heizmann; K. Helbing; W. Herz; S.; Hickford; D. Hilk; M. A. Howe; A. Huber; A. Jansen; J. Kellerer; N. Kernert,; L. Kippenbrock; M. Kleesiek; M. Klein; A. Kopmann; M. Korzeczek; A.; Koval\'ik; B. Krasch; M. Kraus; L. Kuckert; T. Lasserre; O. Lebeda; J.; Letnev; A. Lokhov; M. Machatschek; A. Marsteller; E. L. Martin; S. Mertens,; S. Mirz; B. Monreal; H. Neumann; S. Niemes; A. Off; A. Osipowicz; uE. Otten,; D. S. Parno; A. Pollithy; A. W. P. Poon; F. Priester; P. C.-O. Ranitzsch; O.; Rest; R. G. H. Robertson; F. Roccati; C. Rodenbeck; M. R\"ollig; C.; R\"ottele; M. Ry\v{s}av\'y; R. Sack; A. Saenz; L. Schimpf; K. Schl\"osser; M.; Schl\"osser; K. Sch\"onung; M. Schrank; H. Seitz-Moskaliuk; J.; Sentkerestiov\'a; V. Sibille; M. Slez\'ak; M. Steidl; N. Steinbrink; M.; Sturm; M. Suchopar; H. H. Telle; L. A. Thorne; T. Th\"ummler; N. Titov; I.; Tkachev; N. Trost; K. Valerius; D. V\'enos; R. Vianden; A. P. Vizcaya; Hern\'andez; M. Weber; C. Weinheimer; C. Weiss; S. Welte; J. Wendel; J. F.; Wilkerson; J. Wolf; S. W\"ustling; and S. Zadoroghny

arXiv:1806.08312·physics.ins-det·August 29, 2018

The KATRIN Superconducting Magnets: Overview and First Performance Results

M. Arenz, W.-J. Baek, M. Beck, A. Beglarian, J. Behrens, T. Bergmann,, A. Berlev, U. Besserer, K. Blaum, T. Bode, B. Bornschein, L. Bornschein, T., Brunst, N. Buzinsky, S. Chilingaryan, W. Q. Choi, M. Deffert, P. J. Doe, O., Dragoun, G. Drexlin, S. Dyba, F. Edzards, K. Eitel

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TL;DR

This paper provides an overview of the KATRIN superconducting magnets, detailing their design, safety systems, and initial performance results, demonstrating stable magnetic fields suitable for neutrino mass measurements.

Contribution

It presents the first comprehensive overview and performance data of the KATRIN superconducting magnet system, including safety measures and operational stability.

Findings

01

Magnets operated successfully at 70% of design fields for weeks.

02

Magnetic field stability better than 0.01% per month.

03

Effective safety systems tested and operational.

Abstract

The KATRIN experiment aims for the determination of the effective electron anti-neutrino mass from the tritium beta-decay with an unprecedented sub-eV sensitivity. The strong magnetic fields, designed for up to 6~T, adiabatically guide $β$ -electrons from the source to the detector within a magnetic flux of 191~Tcm $^{2}$ . A chain of ten single solenoid magnets and two larger superconducting magnet systems have been designed, constructed, and installed in the 70-m-long KATRIN beam line. The beam diameter for the magnetic flux varies from 0.064~m to 9~m, depending on the magnetic flux density along the beam line. Two transport and tritium pumping sections are assembled with chicane beam tubes to avoid direct "line-of-sight" molecular beaming effect of gaseous tritium molecules into the next beam sections. The sophisticated beam alignment has been successfully cross-checked by electron…

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