Suppression of Penning discharges between the KATRIN spectrometers

Suppression of Penning discharges between the KATRIN spectrometers

Abstract The KArlsruhe TRItium Neutrino experiment (KATRIN) aims to determine the effective electron (anti)-neutrino mass with a sensitivity of 0.2eV/c $$^2$$ 2 by precisely measuring the endpoint region of the tritium $$\beta $$ β -decay spectrum. It uses a tandem of electrostatic spectrometers wor...

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Main Authors: M. Aker, K. Altenmüller, A. Beglarian, J. Behrens, A. Berlev, U. Besserer, K. Blaum, F. Block, S. Bobien, B. Bornschein, L. Bornschein, H. Bouquet, T. Brunst, T. S. Caldwell, S. Chilingaryan, W. Choi, K. Debowski, M. Deffert, M. Descher, D. Díaz Barrero, P. J. Doe, O. Dragoun, G. Drexlin, S. Dyba, K. Eitel, E. Ellinger, R. Engel, S. Enomoto, D. Eversheim, M. Fedkevych, A. Felden, J. A. Formaggio, F. Fränkle, G. B. Franklin, H. Frankrone, F. Friedel, A. Fulst, K. Gauda, W. Gil, F. Glück, S. Grohmann, R. Grössle, R. Gumbsheimer, M. Hackenjos, V. Hannen, J. Hartmann, N. Haußmann, F. Heizmann, J. Heizmann, K. Helbing, S. Hickford, D. Hillesheimer, D. Hinz, T. Höhn, B. Holzapfel, S. Holzmann, T. Houdy, A. Jansen, C. Karl, J. Kellerer, N. Kernert, L. Kippenbrock, M. Klein, C. Köhler, L. Köllenberger, A. Kopmann, M. Korzeczek, A. Kovalík, B. Krasch, H. Krause, B. Kuffner, N. Kunka, T. Lasserre, L. La Cascio, O. Lebeda, B. Lehnert, J. Letnev, F. Leven, T. L. Le, S. Lichter, A. Lokhov, M. Machatschek, E. Malcherek, A. Marsteller, E. L. Martin, C. Melzer, A. Menshikov, S. Mertens, S. Mirz, B. Monreal, K. Müller, U. Naumann, H. Neumann, S. Niemes, M. Noe, H.-W. Ortjohann, A. Osipowicz, E. Otten, D. S. Parno, A. Pollithy, A. W. P. Poon, J. M. L. Poyato, F. Priester, P. C.-O. Ranitzsch, O. Rest, R. Rinderspacher, R. G. H. Robertson, C. Rodenbeck, P. Rohr, M. Röllig, C. Röttele, M. Ryšavý, R. Sack, A. Saenz, P. Schäfer, L. Schimpf, K. Schlösser, M. Schlösser, L. Schlüter, M. Schrank, B. Schulz, H. Seitz-Moskaliuk, W. Seller, V. Sibille, D. Siegmann, M. Slezák, F. Spanier, M. Steidl, M. Steven, M. Sturm, M. Suesser, M. Sun, 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, W. Xu, Y.-R. Yen, S. Zadoroghny, G. Zeller
Format: Article
Language:English
Published: SpringerOpen 2020-09-01
Series:European Physical Journal C: Particles and Fields
Online Access:http://link.springer.com/article/10.1140/epjc/s10052-020-8278-y
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author M. Aker
K. Altenmüller
A. Beglarian
J. Behrens
A. Berlev
U. Besserer
K. Blaum
F. Block
S. Bobien
B. Bornschein
L. Bornschein
H. Bouquet
T. Brunst
T. S. Caldwell
S. Chilingaryan
W. Choi
K. Debowski
M. Deffert
M. Descher
D. Díaz Barrero
P. J. Doe
O. Dragoun
G. Drexlin
S. Dyba
K. Eitel
E. Ellinger
R. Engel
S. Enomoto
D. Eversheim
M. Fedkevych
A. Felden
J. A. Formaggio
F. Fränkle
G. B. Franklin
H. Frankrone
F. Friedel
A. Fulst
K. Gauda
W. Gil
F. Glück
S. Grohmann
R. Grössle
R. Gumbsheimer
M. Hackenjos
V. Hannen
J. Hartmann
N. Haußmann
F. Heizmann
J. Heizmann
K. Helbing
S. Hickford
D. Hillesheimer
D. Hinz
T. Höhn
B. Holzapfel
S. Holzmann
T. Houdy
A. Jansen
C. Karl
J. Kellerer
N. Kernert
L. Kippenbrock
M. Klein
C. Köhler
L. Köllenberger
A. Kopmann
M. Korzeczek
A. Kovalík
B. Krasch
H. Krause
B. Kuffner
N. Kunka
T. Lasserre
L. La Cascio
O. Lebeda
B. Lehnert
J. Letnev
F. Leven
T. L. Le
S. Lichter
A. Lokhov
M. Machatschek
E. Malcherek
A. Marsteller
E. L. Martin
C. Melzer
A. Menshikov
S. Mertens
S. Mirz
B. Monreal
K. Müller
U. Naumann
H. Neumann
S. Niemes
M. Noe
H.-W. Ortjohann
A. Osipowicz
E. Otten
D. S. Parno
A. Pollithy
A. W. P. Poon
J. M. L. Poyato
F. Priester
P. C.-O. Ranitzsch
O. Rest
R. Rinderspacher
R. G. H. Robertson
C. Rodenbeck
P. Rohr
M. Röllig
C. Röttele
M. Ryšavý
R. Sack
A. Saenz
P. Schäfer
L. Schimpf
K. Schlösser
M. Schlösser
L. Schlüter
M. Schrank
B. Schulz
H. Seitz-Moskaliuk
W. Seller
V. Sibille
D. Siegmann
M. Slezák
F. Spanier
M. Steidl
M. Steven
M. Sturm
M. Suesser
M. Sun
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
W. Xu
Y.-R. Yen
S. Zadoroghny
G. Zeller
spellingShingle M. Aker
K. Altenmüller
A. Beglarian
J. Behrens
A. Berlev
U. Besserer
K. Blaum
F. Block
S. Bobien
B. Bornschein
L. Bornschein
H. Bouquet
T. Brunst
T. S. Caldwell
S. Chilingaryan
W. Choi
K. Debowski
M. Deffert
M. Descher
D. Díaz Barrero
P. J. Doe
O. Dragoun
G. Drexlin
S. Dyba
K. Eitel
E. Ellinger
R. Engel
S. Enomoto
D. Eversheim
M. Fedkevych
A. Felden
J. A. Formaggio
F. Fränkle
G. B. Franklin
H. Frankrone
F. Friedel
A. Fulst
K. Gauda
W. Gil
F. Glück
S. Grohmann
R. Grössle
R. Gumbsheimer
M. Hackenjos
V. Hannen
J. Hartmann
N. Haußmann
F. Heizmann
J. Heizmann
K. Helbing
S. Hickford
D. Hillesheimer
D. Hinz
T. Höhn
B. Holzapfel
S. Holzmann
T. Houdy
A. Jansen
C. Karl
J. Kellerer
N. Kernert
L. Kippenbrock
M. Klein
C. Köhler
L. Köllenberger
A. Kopmann
M. Korzeczek
A. Kovalík
B. Krasch
H. Krause
B. Kuffner
N. Kunka
T. Lasserre
L. La Cascio
O. Lebeda
B. Lehnert
J. Letnev
F. Leven
T. L. Le
S. Lichter
A. Lokhov
M. Machatschek
E. Malcherek
A. Marsteller
E. L. Martin
C. Melzer
A. Menshikov
S. Mertens
S. Mirz
B. Monreal
K. Müller
U. Naumann
H. Neumann
S. Niemes
M. Noe
H.-W. Ortjohann
A. Osipowicz
E. Otten
D. S. Parno
A. Pollithy
A. W. P. Poon
J. M. L. Poyato
F. Priester
P. C.-O. Ranitzsch
O. Rest
R. Rinderspacher
R. G. H. Robertson
C. Rodenbeck
P. Rohr
M. Röllig
C. Röttele
M. Ryšavý
R. Sack
A. Saenz
P. Schäfer
L. Schimpf
K. Schlösser
M. Schlösser
L. Schlüter
M. Schrank
B. Schulz
H. Seitz-Moskaliuk
W. Seller
V. Sibille
D. Siegmann
M. Slezák
F. Spanier
M. Steidl
M. Steven
M. Sturm
M. Suesser
M. Sun
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
W. Xu
Y.-R. Yen
S. Zadoroghny
G. Zeller
Suppression of Penning discharges between the KATRIN spectrometers
European Physical Journal C: Particles and Fields
author_facet M. Aker
K. Altenmüller
A. Beglarian
J. Behrens
A. Berlev
U. Besserer
K. Blaum
F. Block
S. Bobien
B. Bornschein
L. Bornschein
H. Bouquet
T. Brunst
T. S. Caldwell
S. Chilingaryan
W. Choi
K. Debowski
M. Deffert
M. Descher
D. Díaz Barrero
P. J. Doe
O. Dragoun
G. Drexlin
S. Dyba
K. Eitel
E. Ellinger
R. Engel
S. Enomoto
D. Eversheim
M. Fedkevych
A. Felden
J. A. Formaggio
F. Fränkle
G. B. Franklin
H. Frankrone
F. Friedel
A. Fulst
K. Gauda
W. Gil
F. Glück
S. Grohmann
R. Grössle
R. Gumbsheimer
M. Hackenjos
V. Hannen
J. Hartmann
N. Haußmann
F. Heizmann
J. Heizmann
K. Helbing
S. Hickford
D. Hillesheimer
D. Hinz
T. Höhn
B. Holzapfel
S. Holzmann
T. Houdy
A. Jansen
C. Karl
J. Kellerer
N. Kernert
L. Kippenbrock
M. Klein
C. Köhler
L. Köllenberger
A. Kopmann
M. Korzeczek
A. Kovalík
B. Krasch
H. Krause
B. Kuffner
N. Kunka
T. Lasserre
L. La Cascio
O. Lebeda
B. Lehnert
J. Letnev
F. Leven
T. L. Le
S. Lichter
A. Lokhov
M. Machatschek
E. Malcherek
A. Marsteller
E. L. Martin
C. Melzer
A. Menshikov
S. Mertens
S. Mirz
B. Monreal
K. Müller
U. Naumann
H. Neumann
S. Niemes
M. Noe
H.-W. Ortjohann
A. Osipowicz
E. Otten
D. S. Parno
A. Pollithy
A. W. P. Poon
J. M. L. Poyato
F. Priester
P. C.-O. Ranitzsch
O. Rest
R. Rinderspacher
R. G. H. Robertson
C. Rodenbeck
P. Rohr
M. Röllig
C. Röttele
M. Ryšavý
R. Sack
A. Saenz
P. Schäfer
L. Schimpf
K. Schlösser
M. Schlösser
L. Schlüter
M. Schrank
B. Schulz
H. Seitz-Moskaliuk
W. Seller
V. Sibille
D. Siegmann
M. Slezák
F. Spanier
M. Steidl
M. Steven
M. Sturm
M. Suesser
M. Sun
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
W. Xu
Y.-R. Yen
S. Zadoroghny
G. Zeller
author_sort M. Aker
title Suppression of Penning discharges between the KATRIN spectrometers
title_short Suppression of Penning discharges between the KATRIN spectrometers
title_full Suppression of Penning discharges between the KATRIN spectrometers
title_fullStr Suppression of Penning discharges between the KATRIN spectrometers
title_full_unstemmed Suppression of Penning discharges between the KATRIN spectrometers
title_sort suppression of penning discharges between the katrin spectrometers
publisher SpringerOpen
series European Physical Journal C: Particles and Fields
issn 1434-6044
1434-6052
publishDate 2020-09-01
description Abstract The KArlsruhe TRItium Neutrino experiment (KATRIN) aims to determine the effective electron (anti)-neutrino mass with a sensitivity of 0.2eV/c $$^2$$ 2 by precisely measuring the endpoint region of the tritium $$\beta $$ β -decay spectrum. It uses a tandem of electrostatic spectrometers working as magnetic adiabatic collimation combined with an electrostatic (MAC-E) filters. In the space between the pre-spectrometer and the main spectrometer, creating a Penning trap is unavoidable when the superconducting magnet between the two spectrometers, biased at their respective nominal potentials, is energized. The electrons accumulated in this trap can lead to discharges, which create additional background electrons and endanger the spectrometer and detector section downstream. To counteract this problem, “electron catchers” were installed in the beamline inside the magnet bore between the two spectrometers. These catchers can be moved across the magnetic-flux tube and intercept on a sub-ms time scale the stored electrons along their magnetron motion paths. In this paper, we report on the design and the successful commissioning of the electron catchers and present results on their efficiency in reducing the experimental background.
url http://link.springer.com/article/10.1140/epjc/s10052-020-8278-y
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AT apvizcayahernandez suppressionofpenningdischargesbetweenthekatrinspectrometers
AT mweber suppressionofpenningdischargesbetweenthekatrinspectrometers
AT cweinheimer suppressionofpenningdischargesbetweenthekatrinspectrometers
AT cweiss suppressionofpenningdischargesbetweenthekatrinspectrometers
AT swelte suppressionofpenningdischargesbetweenthekatrinspectrometers
AT jwendel suppressionofpenningdischargesbetweenthekatrinspectrometers
AT jfwilkerson suppressionofpenningdischargesbetweenthekatrinspectrometers
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AT swustling suppressionofpenningdischargesbetweenthekatrinspectrometers
AT wxu suppressionofpenningdischargesbetweenthekatrinspectrometers
AT yryen suppressionofpenningdischargesbetweenthekatrinspectrometers
AT szadoroghny suppressionofpenningdischargesbetweenthekatrinspectrometers
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spelling doaj-5fa1c555bf4f40c9a310a3605678fd432020-11-25T03:04:36ZengSpringerOpenEuropean Physical Journal C: Particles and Fields1434-60441434-60522020-09-0180911210.1140/epjc/s10052-020-8278-ySuppression of Penning discharges between the KATRIN spectrometersM. Aker0K. Altenmüller1A. Beglarian2J. Behrens3A. Berlev4U. Besserer5K. Blaum6F. Block7S. Bobien8B. Bornschein9L. Bornschein10H. Bouquet11T. Brunst12T. S. Caldwell13S. Chilingaryan14W. Choi15K. Debowski16M. Deffert17M. Descher18D. Díaz Barrero19P. J. Doe20O. Dragoun21G. Drexlin22S. Dyba23K. Eitel24E. Ellinger25R. Engel26S. Enomoto27D. Eversheim28M. Fedkevych29A. Felden30J. A. Formaggio31F. Fränkle32G. B. Franklin33H. Frankrone34F. Friedel35A. Fulst36K. Gauda37W. Gil38F. Glück39S. Grohmann40R. Grössle41R. Gumbsheimer42M. Hackenjos43V. Hannen44J. Hartmann45N. Haußmann46F. Heizmann47J. Heizmann48K. Helbing49S. Hickford50D. Hillesheimer51D. Hinz52T. Höhn53B. Holzapfel54S. Holzmann55T. Houdy56A. Jansen57C. Karl58J. Kellerer59N. Kernert60L. Kippenbrock61M. Klein62C. Köhler63L. Köllenberger64A. Kopmann65M. Korzeczek66A. Kovalík67B. Krasch68H. Krause69B. Kuffner70N. Kunka71T. Lasserre72L. La Cascio73O. Lebeda74B. Lehnert75J. Letnev76F. Leven77T. L. Le78S. Lichter79A. Lokhov80M. Machatschek81E. Malcherek82A. Marsteller83E. L. Martin84C. Melzer85A. Menshikov86S. Mertens87S. Mirz88B. Monreal89K. Müller90U. Naumann91H. Neumann92S. Niemes93M. Noe94H.-W. Ortjohann95A. Osipowicz96E. Otten97D. S. Parno98A. Pollithy99A. W. P. Poon100J. M. L. Poyato101F. Priester102P. C.-O. Ranitzsch103O. Rest104R. Rinderspacher105R. G. H. Robertson106C. Rodenbeck107P. Rohr108M. Röllig109C. Röttele110M. Ryšavý111R. Sack112A. Saenz113P. Schäfer114L. Schimpf115K. Schlösser116M. Schlösser117L. Schlüter118M. Schrank119B. Schulz120H. Seitz-Moskaliuk121W. Seller122V. Sibille123D. Siegmann124M. Slezák125F. Spanier126M. Steidl127M. Steven128M. Sturm129M. Suesser130M. Sun131D. Tcherniakhovski132H. H. Telle133L. A. Thorne134T. Thümmler135N. Titov136I. Tkachev137N. Trost138K. Valerius139D. Vénos140R. Vianden141A. P. Vizcaya Hernández142M. Weber143C. Weinheimer144C. Weiss145S. Welte146J. Wendel147J. F. Wilkerson148J. Wolf149S. Wüstling150W. Xu151Y.-R. Yen152S. Zadoroghny153G. Zeller154Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Technische Universität MünchenInstitute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Research of Russian Academy of SciencesInstitute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Max-Planck-Institut für KernphysikInstitute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Max-Planck-Institut für PhysikDepartment of Physics and Astronomy, University of North CarolinaInstitute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Institute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Department of Physics, Faculty of Mathematics and Natural Sciences, University of WuppertalInstitute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Departamento de Química Física Aplicada, Universidad Autonoma de MadridDepartment of Physics, Center for Experimental Nuclear Physics and Astrophysics, University of WashingtonNuclear Physics Institute of the CAS, v. v. i.Institute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institut für Kernphysik, Westfälische Wilhelms-Universität MünsterInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Department of Physics, Faculty of Mathematics and Natural Sciences, University of WuppertalInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Department of Physics, Center for Experimental Nuclear Physics and Astrophysics, University of WashingtonHelmholtz-Institut für Strahlen- und Kernphysik, Rheinische Friedrich-Wilhelms-Universität BonnInstitut für Kernphysik, Westfälische Wilhelms-Universität MünsterInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Laboratory for Nuclear Science, Massachusetts Institute of TechnologyInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Department of Physics, Carnegie Mellon UniversityInstitute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Institute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institut für Kernphysik, Westfälische Wilhelms-Universität MünsterInstitut für Kernphysik, Westfälische Wilhelms-Universität MünsterInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institut für Kernphysik, Westfälische Wilhelms-Universität MünsterInstitute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Department of Physics, Faculty of Mathematics and Natural Sciences, University of WuppertalInstitute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Department of Physics, Faculty of Mathematics and Natural Sciences, University of WuppertalInstitute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Max-Planck-Institut für PhysikInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Max-Planck-Institut für PhysikInstitute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Department of Physics, Center for Experimental Nuclear Physics and Astrophysics, University of WashingtonInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Max-Planck-Institut für PhysikInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Institute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Nuclear Physics Institute of the CAS, v. v. i.Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)IRFU (DPhP & APC), CEA, Université Paris-SaclayInstitute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Nuclear Physics Institute of the CAS, v. v. i.Nuclear Science Division, Institute for Nuclear and Particle Astrophysics, Lawrence Berkeley National LaboratoryUniversity of Applied Sciences (HFD) FuldaInstitute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Research of Russian Academy of SciencesInstitute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Department of Physics and Astronomy, University of North CarolinaInstitute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Max-Planck-Institut für PhysikInstitute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Department of Physics, Case Western Reserve UniversityInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Department of Physics, Faculty of Mathematics and Natural Sciences, University of WuppertalInstitute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institut für Kernphysik, Westfälische Wilhelms-Universität MünsterUniversity of Applied Sciences (HFD) FuldaInstitut für Physik, Johannes-Gutenberg-Universität MainzDepartment of Physics, Carnegie Mellon UniversityMax-Planck-Institut für PhysikNuclear Science Division, Institute for Nuclear and Particle Astrophysics, Lawrence Berkeley National LaboratoryDepartamento de Química Física Aplicada, Universidad Autonoma de MadridInstitute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institut für Kernphysik, Westfälische Wilhelms-Universität MünsterInstitut für Kernphysik, Westfälische Wilhelms-Universität MünsterInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Department of Physics, Center for Experimental Nuclear Physics and Astrophysics, University of WashingtonInstitut für Kernphysik, Westfälische Wilhelms-Universität MünsterInstitute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Nuclear Physics Institute of the CAS, v. v. i.Institut für Kernphysik, Westfälische Wilhelms-Universität MünsterInstitut für Physik, Humboldt-Universität zu BerlinInstitute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Max-Planck-Institut für PhysikInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institut für Physik, Humboldt-Universität zu BerlinInstitute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)University of Applied Sciences (HFD) FuldaLaboratory for Nuclear Science, Massachusetts Institute of TechnologyMax-Planck-Institut für PhysikMax-Planck-Institut für PhysikInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Max-Planck-Institut für PhysikInstitute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Department of Physics, Center for Experimental Nuclear Physics and Astrophysics, University of WashingtonInstitute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Departamento de Química Física Aplicada, Universidad Autonoma de MadridDepartment of Physics, Carnegie Mellon UniversityInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Research of Russian Academy of SciencesInstitute for Nuclear Research of Russian Academy of SciencesInstitute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Institute for Nuclear Physics (IKP), Karlsruhe Institute of Technology (KIT)Nuclear Physics Institute of the CAS, v. v. i.Helmholtz-Institut für Strahlen- und Kernphysik, Rheinische Friedrich-Wilhelms-Universität BonnDepartment of Physics, Carnegie Mellon UniversityInstitute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Institut für Kernphysik, Westfälische Wilhelms-Universität MünsterProject, Process, and Quality Management (PPQ), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Institute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Department of Physics and Astronomy, University of North CarolinaInstitute of Experimental Particle Physics (ETP), Karlsruhe Institute of Technology (KIT)Institute for Data Processing and Electronics (IPE), Karlsruhe Institute of Technology (KIT)Laboratory for Nuclear Science, Massachusetts Institute of TechnologyDepartment of Physics, Carnegie Mellon UniversityInstitute for Nuclear Research of Russian Academy of SciencesInstitute for Technical Physics (ITEP), Karlsruhe Institute of Technology (KIT)Abstract The KArlsruhe TRItium Neutrino experiment (KATRIN) aims to determine the effective electron (anti)-neutrino mass with a sensitivity of 0.2eV/c $$^2$$ 2 by precisely measuring the endpoint region of the tritium $$\beta $$ β -decay spectrum. It uses a tandem of electrostatic spectrometers working as magnetic adiabatic collimation combined with an electrostatic (MAC-E) filters. In the space between the pre-spectrometer and the main spectrometer, creating a Penning trap is unavoidable when the superconducting magnet between the two spectrometers, biased at their respective nominal potentials, is energized. The electrons accumulated in this trap can lead to discharges, which create additional background electrons and endanger the spectrometer and detector section downstream. To counteract this problem, “electron catchers” were installed in the beamline inside the magnet bore between the two spectrometers. These catchers can be moved across the magnetic-flux tube and intercept on a sub-ms time scale the stored electrons along their magnetron motion paths. In this paper, we report on the design and the successful commissioning of the electron catchers and present results on their efficiency in reducing the experimental background.http://link.springer.com/article/10.1140/epjc/s10052-020-8278-y

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