학술논문
Gamma-induced background in the KATRIN main spectrometer
Document Type
article
Author
K. Altenmüller; M. Arenz; W.-J. Baek; M. Beck; A. Beglarian; J. Behrens; A. Berlev; U. Besserer; K. Blaum; F. Block; S. Bobien; T. Bode; B. Bornschein; L. Bornschein; H. Bouquet; T. Brunst; N. Buzinsky; S. Chilingaryan; W. Q. Choi; M. Deffert; P. J. Doe; O. Dragoun; G. Drexlin; S. Dyba; K. Eitel; E. Ellinger; R. Engel; S. Enomoto; M. Erhard; D. Eversheim; M. Fedkevych; J. A. Formaggio; F. M. Fränkle; G. B. Franklin; F. Friedel; A. Fulst; W. Gil; F. Glück; A. Gonzalez Ureña; R. Grössle; R. Gumbsheimer; M. Hackenjos; V. Hannen; F. Harms; N. Haußmann; F. Heizmann; K. Helbing; W. Herz; S. Hickford; D. Hilk; D. Hillesheimer; M. A. Howe; A. Huber; A. Jansen; C. Karl; J. Kellerer; N. Kernert; L. Kippenbrock; M. Klein; A. Kopmann; M. Korzeczek; A. Kovalík; B. Krasch; A. Kraus; M. Kraus; T. Lasserre; O. Lebeda; B. Lehnert; J. Letnev; A. Lokhov; M. Machatschek; A. Marsteller; E. L. Martin; S. Mertens; S. Mirz; B. Monreal; H. Neumann; S. Niemes; A. Osipowicz; E. Otten; D. S. Parno; A. Pollithy; A. W. P. Poon; F. Priester; P. C.-O. Ranitzsch; O. Rest; R. G. H. Robertson; C. Rodenbeck; M. Röllig; C. Röttele; M. Ryšavý; R. Sack; A. Saenz; L. Schimpf; K. Schlösser; M. Schlösser; L. Schlüter; M. Schrank; H. Seitz-Moskaliuk; V. Sibille; M. Slezák; M. Steidl; N. Steinbrink; M. Sturm; M. Suchopar; D. Tcherniakhovski; H. H. Telle; L. A. Thorne; T. Thümmler; N. Titov; I. Tkachev; N. Trost; K. Valerius; D. Vénos; R. Vianden; A. P. Vizcaya Hernández; M. Weber; C. Weinheimer; C. Weiss; S. Welte; J. Wendel; J. F. Wilkerson; J. Wolf; S. Wüstling; S. Zadoroghny; G. Zeller
Source
European Physical Journal C: Particles and Fields, Vol 79, Iss 9, Pp 1-12 (2019)
Subject
Language
English
ISSN
1434-6044
1434-6052
1434-6052
Abstract
Abstract The KATRIN experiment aims to measure the effective electron antineutrino mass $$m_{\overline{\nu }_e}$$ mν¯e with a sensitivity of $${0.2}\,{\hbox {eV}/\hbox {c}^2}$$ 0.2eV/c2 using a gaseous tritium source combined with the MAC-E filter technique. A low background rate is crucial to achieving the proposed sensitivity, and dedicated measurements have been performed to study possible sources of background electrons. In this work, we test the hypothesis that gamma radiation from external radioactive sources significantly increases the rate of background events created in the main spectrometer (MS) and observed in the focal-plane detector. Using detailed simulations of the gamma flux in the experimental hall, combined with a series of experimental tests that artificially increased or decreased the local gamma flux to the MS, we set an upper limit of $${0.006}\,{\hbox {count}/\hbox {s}}$$ 0.006count/s (90% C.L.) from this mechanism. Our results indicate the effectiveness of the electrostatic and magnetic shielding used to block secondary electrons emitted from the inner surface of the MS.