First transmission of electrons and ions through the KATRIN beamline

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; S. Fischer; J.A. Formaggio; F.M. Fränkle; G.B. Franklin; F. Friedel; A. Fulst; W. Gil; F. Glück; A. Gonzalez Ureña; S. Grohmann; 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; J. Kellerer; N. Kernert; L. Kippenbrock; M. Kleesiek; M. Klein; A. Kopmann; M. Korzeczek; A. Kovalík; 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; U. Naumann; H. Neumann; S. Niemes; A. Off; H.-W. Ortjohann; 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; F. Roccati; C. Rodenbeck; M. Röllig; C. Röttele; M. Ryšavý; R. Sack; A. Saenz; L. Schimpf; K. Schlösser; M. Schlösser; K. Schönung; M. Schrank; H. Seitz-Moskaliuk; J. Sentkerestiová; V. Sibille; M. Slezák; M. Steidl; N. Steinbrink; M. Sturm; M. Suchopar; M. Suesser; 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

doi:10.1088/1748-0221/13/04/P04020

Journal of Instrumentation

The following article is Open access

First transmission of electrons and ions through the KATRIN beamline

M. Arenz¹, W.-J. Baek², M. Beck³, A. Beglarian⁴, J. Behrens², T. Bergmann⁴, A. Berlev⁵, U. Besserer⁶, K. Blaum⁷, T. Bode^8,9, B. Bornschein⁶, L. Bornschein¹⁰, T. Brunst^8,9, N. Buzinsky¹¹, S. Chilingaryan⁴, W.Q. Choi², M. Deffert², P.J. Doe¹², O. Dragoun¹³, G. Drexlin², S. Dyba¹⁴, F. Edzards^8,9, K. Eitel¹⁰, E. Ellinger¹⁵, R. Engel¹⁰, S. Enomoto¹², M. Erhard², D. Eversheim¹, M. Fedkevych¹⁴, S. Fischer⁶, J.A. Formaggio¹¹, F.M. Fränkle¹⁰, G.B. Franklin¹⁶, F. Friedel², A. Fulst¹⁴, W. Gil¹⁰, F. Glück¹⁰, A. Gonzalez Ureña¹⁷, S. Grohmann⁶, R. Grössle⁶, R. Gumbsheimer¹⁰, M. Hackenjos⁶, V. Hannen¹⁴, F. Harms², N. Haußmann¹⁵, F. Heizmann², K. Helbing¹⁵, W. Herz⁶, S. Hickford¹⁵, D. Hilk², D. Hillesheimer⁶, M.A. Howe^18,19, A. Huber², A. Jansen¹⁰, J. Kellerer², N. Kernert¹⁰, L. Kippenbrock¹², M. Kleesiek², M. Klein², A. Kopmann⁴, M. Korzeczek², A. Kovalík¹³, B. Krasch⁶, M. Kraus², L. Kuckert¹⁰, T. Lasserre^9,20, O. Lebeda¹³, J. Letnev²¹, A. Lokhov⁵, M. Machatschek², A. Marsteller⁶, E.L. Martin¹², S. Mertens^8,9, S. Mirz⁶, B. Monreal²², U. Naumann¹⁵, H. Neumann⁶, S. Niemes⁶, A. Off⁶, H.-W. Ortjohann¹⁴, A. Osipowicz²¹, E. Otten³, D.S. Parno¹⁶, A. Pollithy^8,9, A.W.P. Poon²³, F. Priester⁶, P.C.-O. Ranitzsch¹⁴, O. Rest¹⁴, R.G.H. Robertson¹², F. Roccati^8,10, C. Rodenbeck², M. Röllig⁶, C. Röttele², M. Ryšavý¹³, R. Sack¹⁴, A. Saenz²⁴, L. Schimpf², K. Schlösser¹⁰, M. Schlösser⁶, K. Schönung⁷, M. Schrank¹⁰, H. Seitz-Moskaliuk², J. Sentkerestiová¹³, V. Sibille¹¹, M. Slezák^8,9, M. Steidl¹⁰, N. Steinbrink¹⁴, M. Sturm⁶, M. Suchopar¹³, M. Suesser⁶, H.H. Telle¹⁷, L.A. Thorne¹⁶, T. Thümmler¹⁰, N. Titov⁵, I. Tkachev⁵, N. Trost¹⁰, K. Valerius¹⁰, D. Vénos¹³, R. Vianden¹, A.P. Vizcaya Hernández¹⁶, M. Weber⁴, C. Weinheimer¹⁴, C. Weiss²⁵, S. Welte⁶, J. Wendel⁶, J.F. Wilkerson^18,19, J. Wolf², S. Wüstling⁴ and S. Zadoroghny⁵

Published 17 April 2018 • © 2018 The Author(s)
Journal of Instrumentation, Volume 13, April 2018 Citation M. Arenz et al 2018 JINST 13 P04020 DOI 10.1088/1748-0221/13/04/P04020

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¹ Helmholtz-Institut für Strahlen- und Kernphysik, Rheinische Friedrich-Wilhelms Universität Bonn, Nussallee 14-16, 53115 Bonn, Germany

² Institute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT), Wolfgang-Gaede-Str. 1, 76131 Karlsruhe, Germany

³ Institut für Physik, Johannes-Gutenberg-Universität Mainz, 55099 Mainz, Germany

⁴ Institute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT), Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany

⁵ Institute for Nuclear Research of Russian Academy of Sciences, 60th October Anniversary Prospect 7a, 117312 Moscow, Russia

⁶ Institute for Technical Physics (ITeP), Karlsruhe Institute of Technology (KIT), Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany

⁷ Max-Planck-Institut für Kernphysik, Saupfercheckweg 1, 69117 Heidelberg, Germany

⁸ Max-Planck-Institut für Physik, Föhringer Ring 6, 80805 München, Germany

⁹ Technische Universität München, James-Franck-Str. 1, 85748 Garching, Germany

¹⁰ Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT), Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany

¹¹ Laboratory for Nuclear Science, Massachusetts Institute of Technology, 77 Massachusetts Ave, Cambridge, MA 02139, U.S.A.

¹² Center for Experimental Nuclear Physics and Astrophysics, and Dept. of Physics, University of Washington, Seattle, WA 98195, U.S.A.

¹³ Nuclear Physics Institute of the CAS, v.v. i., CZ-250 68 \v Rež, Czech Republic

¹⁴ Institut für Kernphysik, Westfälische Wilhelms-Universität Münster, Wilhelm-Klemm-Str. 9, 48149 Münster, Germany

¹⁵ Department of Physics, Faculty of Mathematics and Natural Sciences, University of Wuppertal, Gauss-Str. 20, D-42119 Wuppertal, Germany

¹⁶ Department of Physics, Carnegie Mellon University, Pittsburgh, PA 15213, U.S.A.

¹⁷ Universidad Complutense de Madrid, Instituto Pluridisciplinar, Paseo Juan XXIII, n. 1, 28040—Madrid, Spain

¹⁸ Department of Physics and Astronomy, University of North Carolina, Chapel Hill, NC 27599, U.S.A.

¹⁹ Triangle Universities Nuclear Laboratory, Durham, NC 27708, U.S.A.

²⁰ Commissariat à l'Energie Atomique et aux Energies Alternatives, Centre de Saclay, DRF/IRFU, 91191 Gif-sur-Yvette, France

²¹ University of Applied Sciences (HFD) Fulda, Leipziger Str. 123, 36037 Fulda, Germany

²² Department of Physics, Case Western Reserve University, Cleveland, OH 44106, U.S.A.

²³ Institute for Nuclear and Particle Astrophysics and Nuclear Science Division, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, U.S.A.

²⁴ Institut für Physik, Humboldt-Universität zu Berlin, Newtonstr. 15, 12489 Berlin, Germany

²⁵ Project, Process, and Quality Management (PPQ), Karlsruhe Institute of Technology (KIT), Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany

Dates

Received 12 February 2018
Accepted 2 April 2018
Published 17 April 2018

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Abstract

The Karlsruhe Tritium Neutrino (KATRIN) experiment is a large-scale effort to probe the absolute neutrino mass scale with a sensitivity of 0.2 eV (90% confidence level), via a precise measurement of the endpoint spectrum of tritium β-decay. This work documents several KATRIN commissioning milestones: the complete assembly of the experimental beamline, the successful transmission of electrons from three sources through the beamline to the primary detector, and tests of ion transport and retention. In the First Light commissioning campaign of autumn 2016, photoelectrons were generated at the rear wall and ions were created by a dedicated ion source attached to the rear section; in July 2017, gaseous ^83mKr was injected into the KATRIN source section, and a condensed ^83mKr source was deployed in the transport section. In this paper we describe the technical details of the apparatus and the configuration for each measurement, and give first results on source and system performance. We have successfully achieved transmission from all four sources, established system stability, and characterized many aspects of the apparatus.

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First transmission of electrons and ions through the KATRIN beamline

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