Commissioning of the vacuum system of the KATRIN Main Spectrometer

M. Arenz; M. Babutzka; M. Bahr; J.P. Barrett; S. Bauer; M. Beck; A. Beglarian; J. Behrens; T. Bergmann; U. Besserer; J. Blümer; L.I. Bodine; K. Bokeloh; J. Bonn; B. Bornschein; L. Bornschein; S. Büsch; T.H. Burritt; S. Chilingaryan; T.J. Corona; L. De Viveiros; P.J. Doe; O. Dragoun; G. Drexlin; S. Dyba; S. Ebenhöch; K. Eitel; E. Ellinger; S. Enomoto; M. Erhard; D. Eversheim; M. Fedkevych; A. Felden; S. Fischer; J.A. Formaggio; F. Fränkle; D. Furse; M. Ghilea; W. Gil; F. Glück; A. Gonzalez Ureña; S. Görhardt; S. Groh; S. Grohmann; R. Grössle; R. Gumbsheimer; M. Hackenjos; V. Hannen; F. Harms; N. Haußmann; F. Heizmann; K. Helbing; W. Herz; S. Hickford; D. Hilk; B. Hillen; T. Höhn; B. Holzapfel; M. Hötzel; M.A. Howe; A. Huber; A. Jansen; N. Kernert; L. Kippenbrock; M. Kleesiek; M. Klein; A. Kopmann; A. Kosmider; A. Kovalík; B. Krasch; M. Kraus; H. Krause; M. Krause; L. Kuckert; B. Kuffner; L. La Cascio; O. Lebeda; B. Leiber; J. Letnev; V.M. Lobashev; A. Lokhov; E. Malcherek; M. Mark; E.L. Martin; S. Mertens; S. Mirz; B. Monreal; K. Müller; M. Neuberger; H. Neumann; S. Niemes; M. Noe; N.S. Oblath; A. Off; H.-W. Ortjohann; A. Osipowicz; E. Otten; D.S. Parno; P. Plischke; A.W.P. Poon; M. Prall; F. Priester; P.C.-O. Ranitzsch; J. Reich; O. Rest; R.G.H. Robertson; M. Röllig; S. Rosendahl; S. Rupp; M. Ryšavý; K. Schlösser; M. Schlösser; K. Schönung; M. Schrank; J. Schwarz; W. Seiler; H. Seitz-Moskaliuk; J. Sentkerestiová; A. Skasyrskaya; M. Slezák; A. Špalek; M. Steidl; N. Steinbrink; M. Sturm; M. Suesser; H.H. Telle; T. Thümmler; N. Titov; I. Tkachev; N. Trost; A. Unru; K. Valerius; D. Vénos; R. Vianden; S. Vöcking; B.L. Wall; N. Wandkowsky; M. Weber; C. Weinheimer; C. Weiss; S. Welte; J. Wendel; K.L. Wierman; J.F. Wilkerson; D. Winzen; J. Wolf; S. Wüstling; M. Zacher; S. Zadoroghny; M. Zbořil

doi:10.1088/1748-0221/11/04/P04011

Journal of Instrumentation

The following article is Open access

Commissioning of the vacuum system of the KATRIN Main Spectrometer

M. Arenz¹, M. Babutzka², M. Bahr³, J.P. Barrett⁴, S. Bauer⁵, M. Beck⁶, A. Beglarian⁷, J. Behrens⁵, T. Bergmann⁷, U. Besserer⁸, J. Blümer⁹, L.I. Bodine¹⁰, K. Bokeloh⁵, J. Bonn^6,9, B. Bornschein⁸, L. Bornschein⁹, S. Büsch¹¹, T.H. Burritt¹⁰, S. Chilingaryan⁷, T.J. Corona¹², L. De Viveiros³, P.J. Doe¹⁰, O. Dragoun¹³, G. Drexlin², S. Dyba⁵, S. Ebenhöch⁹, K. Eitel⁹, E. Ellinger¹⁴, S. Enomoto¹⁰, M. Erhard², D. Eversheim¹, M. Fedkevych⁵, A. Felden⁹, S. Fischer⁸, J.A. Formaggio⁴, F. Fränkle^9,12, D. Furse⁴, M. Ghilea³, W. Gil⁹, F. Glück⁹, A. Gonzalez Ureña¹⁵, S. Görhardt⁹, S. Groh², S. Grohmann⁸, R. Grössle⁸, R. Gumbsheimer⁹, M. Hackenjos⁸, V. Hannen⁵, F. Harms², N. Haußmann¹⁴, F. Heizmann², K. Helbing¹⁴, W. Herz⁸, S. Hickford¹⁴, D. Hilk², B. Hillen⁵, T. Höhn⁹, B. Holzapfel⁸, M. Hötzel², M.A. Howe¹², A. Huber⁹, A. Jansen⁹, N. Kernert⁹, L. Kippenbrock¹⁰, M. Kleesiek², M. Klein², A. Kopmann⁷, A. Kosmider⁹, A. Kovalík¹³, B. Krasch⁸, M. Kraus², H. Krause⁹, M. Krause², L. Kuckert², B. Kuffner⁹, L. La Cascio², O. Lebeda¹³, B. Leiber⁹, J. Letnev¹⁷, V.M. Lobashev¹⁸, A. Lokhov¹⁸, E. Malcherek⁹, M. Mark⁹, E.L. Martin¹⁰, S. Mertens^9,19, S. Mirz⁸, B. Monreal³, K. Müller⁹, M. Neuberger¹¹, H. Neumann⁸, S. Niemes⁸, M. Noe⁸, N.S. Oblath⁴, A. Off⁸, H.-W. Ortjohann⁵, A. Osipowicz¹⁷, E. Otten⁶, D.S. Parno¹⁰, P. Plischke⁹, A.W.P. Poon¹⁹, M. Prall⁵, F. Priester⁸, P.C.-O. Ranitzsch⁵, J. Reich⁹, O. Rest⁵, R.G.H. Robertson¹⁰, M. Röllig⁸, S. Rosendahl⁵, S. Rupp⁸, M. Ryšavý¹³, K. Schlösser⁹, M. Schlösser^8,15, K. Schönung⁸, M. Schrank⁹, J. Schwarz⁹, W. Seiler¹⁷, H. Seitz-Moskaliuk², J. Sentkerestiová¹³, A. Skasyrskaya¹⁸, M. Slezák¹³, A. Špalek¹³, M. Steidl⁹, N. Steinbrink⁵, M. Sturm⁸, M. Suesser⁸, H.H. Telle^15,16, T. Thümmler⁹, N. Titov¹⁸, I. Tkachev¹⁸, N. Trost⁹, A. Unru¹⁷, K. Valerius⁹, D. Vénos¹³, R. Vianden¹, S. Vöcking^5,9, B.L. Wall¹⁰, N. Wandkowsky⁹, M. Weber⁷, C. Weinheimer⁵, C. Weiss¹¹, S. Welte⁸, J. Wendel⁸, K.L. Wierman¹², J.F. Wilkerson¹², D. Winzen⁵, J. Wolf², S. Wüstling⁷, M. Zacher⁵, S. Zadoroghny¹⁸ and M. Zbořil^5,13

Published 7 April 2016 • Journal of Instrumentation, Volume 11, April 2016 Citation M. Arenz et al 2016 JINST 11 P04011 DOI 10.1088/1748-0221/11/04/P04011

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¹ Helmholtz-Institut fuer Strahlen- und Kernphysik, University Bonn, Nussallee 14-16, 53115 Bonn, Germany

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

³ Department of Physics, University of California at Santa Barbara, Santa Barbara, CA 93106, U.S.A.

⁴ Laboratory for Nuclear Science, Massachusetts Institute of Technology, 77 Massachusetts Ave, Cambridge, MA 02139, U.S.A.

⁵ Institut für Kernphysik, Westfälische Wilhelms-Universität Münster, Wilhelm-Klemm-Str. 9, 48149 Münster, Germany

⁶ Institut für Physik, Johannes-Gutenberg-Universität Mainz, 55099 Mainz, Germany

⁷ Institute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT), Hermann- von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany

⁸ Institute for Technical Physics (ITeP), Karlsruhe Institute of Technology (KIT), Hermann- von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany

⁹ Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT), Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany

¹⁰ Center for Experimental Nuclear Physics and Astrophysics, and Dept. of Physics, University of Washington, Seattle, WA 98195, U.S.A.

¹¹ Project, Process, and Quality Management (PPQ), Karlsruhe Institute of Technology (KIT), Hermann- von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany

¹² Department of Physics and Astronomy, University of North Carolina, Chapel Hill, NC 27599, U.S.A.

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

¹⁴ Department of Physics, Faculty of Mathematics und Natural Sciences, University of Wuppertal, Gauss-Str. 20, D-42119 Wuppertal, Germany

¹⁵ Universidad Complutense de Madrid, Instituto Pluridisciplinar, Paseo Juan XXIII, n. 1, 28040 - Madrid, Spain

¹⁶ Department of Physics, Swansea University, Singleton Park, Swansea SA2 8PP, United Kingdom

¹⁷ University of Applied Sciences (FH) Fulda, Leipziger Str. 123, 36037 Fulda, Germany

¹⁸ Academy of Sciences of Russia, Institute for Nuclear Research, 60th October Anniversary, Prospect 7a, 117312 Moscow, Russia

¹⁹ Institute for Nuclear and Particle Astrophysics and Nuclear Science Division, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, U.S.A.

Dates

Received 3 March 2016
Accepted 25 March 2016
Published 7 April 2016

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Abstract

The KATRIN experiment will probe the neutrino mass by measuring the β-electron energy spectrum near the endpoint of tritium β-decay. An integral energy analysis will be performed by an electro-static spectrometer (``Main Spectrometer''), an ultra-high vacuum vessel with a length of 23.2 m, a volume of 1240 m³, and a complex inner electrode system with about 120 000 individual parts. The strong magnetic field that guides the β-electrons is provided by super-conducting solenoids at both ends of the spectrometer. Its influence on turbo-molecular pumps and vacuum gauges had to be considered. A system consisting of 6 turbo-molecular pumps and 3 km of non-evaporable getter strips has been deployed and was tested during the commissioning of the spectrometer. In this paper the configuration, the commissioning with bake-out at 300 °C, and the performance of this system are presented in detail. The vacuum system has to maintain a pressure in the 10⁻¹¹ mbar range. It is demonstrated that the performance of the system is already close to these stringent functional requirements for the KATRIN experiment, which will start at the end of 2016.

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Commissioning of the vacuum system of the KATRIN Main Spectrometer

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