Prof. Dr. Weinheimer

Forschungsschwerpunkte
- Neutrinophysik (Kern-, Teilchen- und Astroteilchenphysik): Mainzer Neutrinomassenexperiment (Neutrinomasse, 1987-2005), CHORUS (Neutrinooszillation, CERN, 1995-1998), AMANDA (Neutrinoteleskop, Südpol, 1998-2001), KATRIN (Neutrinomasse, KIT, 2001-)
- Direkte Suche nach dunkler Materie (Teilchenphysik, Astroteilchenphysik): XENON100- und XENON1T-Experiment (Untergrundlabor LNGS/Italien, 2009-), DARWIN (2010-)
- Fundamentale Wechselwirkungen (Atom-, Kern- und Teilchenphysik): WITCH-Experiment (CERN, 2007-2013), SpecTrap- and Libelle Experiment (GSI, 2007-)
- Entwicklung eines TMB-basierten Detektors mit Cherenkov-Licht- und Ladungsauslese für Positronen-Emissions-Tomographie (PET) (zusammen mit EIMI/CiM, 2017-)
- Hadronspektroskopie (Kern- und Hadronenphysik): CBELSA-TAPS-Experiment (Bonn, 2001-2004)
Vita
Akademische Ausbildung
2000
Habilitation in Experimentalphysik an der Johannes Gutenberg-Universität Mainz bei Prof. Dr. Dr. h.c. E.W. Otten, Titel der Habilitationsschrift: "Suche nach Neutrinomassen und -oszillationen"
11.1989 – 11.1993
Promotion in Physik an der Johannes Gutenberg-Universität Mainz, Betreuer: Prof. H. Backe, Titel: "Eine neue Obergrenze für die Ruhemasse des Elektronneutrinos aus der Messung des Tritium Betazerfalls", Note: summa cum laude
11.1982 – 11.1989
Studium der Physik und Mathematik an der Johannes Gutenberg-Universität Mainz, Vordiplom in Mathematik mit Note "sehr gut", Diplom in Physik mit Note "mit Auszeichnung", Diplomarbeit: "Test und Aufbau des Detektorsystems für das Mainzer Neutrinomassenexperiment, Betreuer: Prof. Dr. H. Backe
Beruflicher Werdegang
seit 2004
Universitätsprofessor für Physik (C4/W3) an der Westfälischen Wilmhelms-Universität Münster
2001 – 2004
Universitätsprofessor für Physik (C3) an der Rheinischen Friedrich-Wilhelms-Universität Bonn
2000 – 2001
Hochschuldozent (C2) an der Johannes Gutenberg-Universität Mainz
1997 – 2000
Hochschulassistent (C1) an der Johannes Gutenberg-Universität Mainz
1995 – 1996
CERN-Fellow am Europäischen Teilchenforschungszentrum CERN
1993 – 1994
Postdoktorand an der Johannes Gutenberg-Universität Mainz
1989 – 1993
Wissenschaftlicher Mitarbeiter an der Johannes Gutenberg-Unversität Mainz
Mitgliedschaften und Aktivitäten in Gremien
seit 01.2025
Universität Münster (Institut für Kernphysik, Geschäftsführender Direktor)
01.2024 – 12.2025
XENON-Kollaboration (Collaboration Board, Ko-Vorsitzender des Collaboration Board der XENON-Kollaboration)
seit 09.2023
Universität Münster (Forschungsbeirat des Rektorats, Mitglied)
seit 01.2023
DESY (Scientific Council DESY, Mitglied)
01.2021 – 12.2026
Deutsche Forschungsgemeinschaft (DFG) (Senats- und Bewilligungsausschuss für Sonderforschungsbereiche der Deutschen Forschungsgemeinschaft (DFG), Wissenschaftliches Mitglied)
seit 2021
International Advisory Board of the Nuclear Physics Institute of the Czech Academy of Sciences
seit 03.2020
Stellvertretender Sprecher des Graduiertenkollegs "Starke und Schwache Wechselwirkung - von Hadronen zu Dunkler Materie" finanziert durch die Deutsche Forschungsgemeinschaft (GRK 2149)
seit 02.2020
Mitglied des europäischen APPEC-SAC (Science Advisory Committee des Astroparticle Physics European Consortiums)
seit 08.2019
Mitglied des International Scientific Advisory Committee (ISAC) des Arthur B. McDonald Canadian Astroparticle Physics Research Institute
05.2019 – 11.2022
Vorsitzender des Astroparticle Physics Committee (APC) des DESY (DESY, Vorsitzender)
seit 05.2017
Mitglied im Interfaculty Centre Cells in Motion CiM
10.2016 – 09.2022
Universität Münstesr (Institut für Kernphysik, Geschäftsführender Direktor)
2001 – 2022
Internationale KATRIN-Kollaboration (Kosprecher)
04.2015 – 04.2021
Beirat des Fachverbands Teilchenphysik der Deutschen Physikalischen Gesellschaft (DPG)
09.2015 – 02.2020
Sprecher des Graduiertenkollegs "Starke und Schwache Wechselwirkung - von Hadronen zu Dunkler Materie" finanziert durch die Deutsche Forschungsgemeinschaft (GRK 2149)
09.2013 – 09.2019
Mitglied des Scientific Committee des italienischen Untergrundlabors LNGS ( Laboratori Nazionali del Gran Sasso)
11.2012 – 05.2019
Vorsitzender des Wissenschaftlichen Beirates des Exzellenzclusters PRISMA (Precision Physics, Fundamental Interactions and Structure of Matter) der Johannes Gutenberg-Universität Mainz
2017 – 05.2019
Mitglied des Physics Review Committee (PRC) des DESY
2005 – 03.2019
Komitee für Astroteilchenphysik KAT (Vorsitz 2013-2019) (Gewähltes Komitee der in deutschen Forschungsinstituten und Universitäten tätigen Astroteilchenphysiker*innen, Vorsitzender (2013-2019), gewähltes Mitglied (2010-2019), Repräsentant des Komitees für Hadronen- und Kernphysik KHuK (2005-2010)
11.2014 – 11.2016
Dekan des Fachbereichs Physik der WWU
2012 – 2016
DFG Fachkollegiat „309 - Teilchen, Kerne und Felder“
11.2012 – 10.2014
Prodekan des Fachbereichs Physik der WWU
2006 – 2013
Coorganisator des jährlichen "Arbeitstreffen Kernphysik" in Schleching
2005 – 2013
Vorsitzender des Arbeitskreises Schulphysik des Fachbereichs Physik der Westfälischen Wilhelms-Universität Münster
2007 – 2012
Universität Münster (Instituts für Kernphysik, Geschäftsführender Direktor)
2005 – 2012
Komitee für Hadronen- und Kernphysik KHuK (gewähltes Mitglied: 2005-2010, 2010-2012 Vertreter des Komitees für Astroteilchenphysik KAT im KHuK)
2011 – 2012
Mitglied des Fachbeirats des Max-Planck-Instituts für Kernphysik, Heidelberg
2006 – 2011
BMBF-Gutachteraussschusses „Hadronen- und Kernphysik“ (2009 - 2011 stellvertr. Vorsitzender)
2010 – 2011
Tagungsleiter des Frühjahrstagung 2011 der Deutschen Physikalischen Gesellschaft DPG in Münster der Fachverbände "Hadronen und Kerne" und "Didaktik der Physik"
2005 – 2010
BMBF-Gutachteraussschusses „Erdgebundene Astrophysik und Astroteilchenphysik“
2008 – 2010
Vorsitzender des Boards der Internationalen Doktorandenschule FANTOM (Fundamental and Applied Nuclear and aTOMic physics)
2007 – 2008
DFG Fachkollegiat „309 - Teilchen, Kerne und Felder“
Projekte
- GRK 2149: Starke und schwache Wechselwirkung - von Hadronen zu Dunkler Materie (2020 – 2024)
  DFG-Hauptprojekt koordiniert an der Universität Münster: | DFG - Graduiertenkolleg | Förderkennzeichen: GRK 2149/2
- GRK 2149: Starke und schwache Wechselwirkung - von Hadronen zu Dunkler Materie (2015 – 2020)
  DFG-Hauptprojekt koordiniert an der Universität Münster: | DFG - Graduiertenkolleg | Förderkennzeichen: GRK 2149/1
Publikationen
- 2025
- 2024
- 2023
- 2022
- 2021
- 2020
- 2019
- 2018
- 2017
- 2016
- 2015
- 2014
- 2013
- 2012
- 2011
- 2010
- 2009
- 2008
- 2007
- 2006
- 2005
- 2004
- 2003
- 2002
- 2001
- 2000
- 1999
- 1998
- 1997
- 1996
- 1994
- 1993
- 1992
2025
- Aalbers, J., Abe, K., Adrover, M., Maouloud, S.Ahmed, Akerib, D.S., Al Musalhi, A.K., Alder, F., Althueser, L., Amaral, D.W. P., Amarasinghe, C.S., Ames, A., Andrieu, B., Angelides, N., Angelino, E., Antunovic, B., Aprile, E., Araujo, H.M., Armstrong, J.E., Arthurs, M., Babicz, M., Baker, A., Balzer, M., Bang, J., Barberio, E., Bargemann, J.W., Barillier, E., Basharina-Freshville, A., Baudis, L., Bauer, D., Bazyk, M., Beattie, K., Beaupere, N., Bell, N.F., Bellagamba, L., Benson, T., Bhatti, A., Biesiadzinski, T.P., Biondi, R., Biondi, Y., Birch, H.J., Bishop, E., Bismark, A., Boehm, C., Boese, K., Bolotnikov, A., Bras, P., Braun, R., Breskin, A., Brew, C.A. J., Brommer, S., Brown, A., Bruni, G., Budnik, R., Burdin, S., Cai, C., Capelli, C., Carini, G., Carmona-Benitez, M.C., Carter, M., Chauvin, A., Chawla, A., Chen, H., Cherwinka, J.J., Chin, Y.T., Chott, N.I., Chavez, A.P. Cimental, Clark, K., Colijn, A.P., Colling, D.J., Conrad, J., Converse, M.V., Coronel, R., Costanzo, D., Cottle, A., Cox, G., Cuenca-Garcia, J.J., Curran, D., Cussans, D., D'Andrea, V., Garcia, L.C. Daniel, Darlington, I., Dave, S., David, A., Davies, G.J., Decowski, M.P., Deisting, A., Delgaudio, J., Dey, S., Di Donato, C., Di Felice, L., Di Gangi, P., Diglio, S., Ding, C., Dobson, J.E. Y., Doerenkamp, M., Drexlin, G., Druszkiewicz, E., Dunbar, C.L., Eitel, K., Elykov, A., Engel, R., Eriksen, S.R., Fayer, S., Fearon, N.M., Ferella, A.D., Ferrari, C., Fieldhouse, N., Fischer, H., Flaecher, H., Flehmke, T., Flierman, M., Fraser, E.D., Fruth, T.M. A., Fujikawa, K., Fulgione, W., Fuselli, C., Gaemers, P., Gaior, R., Gaitskell, R.J., Gallice, N., Galloway, M., Gao, F., Garroum, N., Geffre, A., Genovesi, J., Ghag, C., Ghosh, S., Giacomobono, R., Gibbons, R., Girard, F., Glade-Beucke, R., Glueck, F., Gokhale, S., Grandi, L., Green, J., Grigat, J., van der Grinten, M.G. D., Groessle, R., Guan, H., Guida, M., Gyorgy, P., Haiston, J.J., Hall, C.R., Hall, T., Hammann, R., Hannen, V., Hansmann-Menzemer, S., Hargittai, N., Hartigan-O'Connor, E., Haselschwardt, S.J., Hernandez, M., Hertel, S.A., Higuera, A., Hils, C., Hiraoka, K., Hoetzsch, L., Hoferichter, M., Homenides, G.J., Hood, N.F., Horn, M., Huang, D.Q., Hughes, S., Hunt, D., Iacovacci, M., Itow, Y., Jacquet, E., Jakob, J., James, R.S., Joerg, F., Jones, S., Kaboth, A.C., Kahlert, F., Kamaha, A.C., Kaminaga, Y., Kara, M., Kavrigin, P., Kazama, S., Keller, M., Kemp-Russell, P., Khaitan, D., Kharbanda, P., Kilminster, B., Kim, J., Kirk, R., Kleifges, M., Klute, M., Kobayashi, M., Kodroff, D., Koke, D., Kopec, A., Korolkova, E.V., Kraus, H., Kravitz, S., Kreczko, L., von Krosigk, B., Kudryavtsev, V.A., Kuger, F., Kurita, N., Landsman, H., Lang, R.F., Lawes, C., Lee, J., Lehnert, B., Leonard, D.S., Lesko, K.T., Levinson, L., Li, A., Li, I., Li, S., Liang, S., Liang, Z., Lin, J., Lin, Y-T, Lindemann, S., Linden, S., Lindner, M., Lindote, A., Lippincott, W.H., Liu, K., Loizeau, J., Lombardi, F., Lopes, J.A. M., Lopes, M.I., Lorenzon, W., Loutit, M., Lu, C., Lucchetti, G.M., Luce, T., Luitz, S., Ma, Y., Macolino, C., Mahlstedt, J., Maier, B., Majewski, P.A., Manalaysay, A., Mancuso, A., Manenti, L., Mannino, R.L., Marignetti, F., Marley, T., Undagoitia, T.Marrodan, Martens, K., Masbou, J., Masson, E., Mastroianni, S., Maupin, C., McCabe, C., McCarthy, M.E., McKinsey, D.N., Mclaughlin, J.B., Melchiorre, A., Menendez, J., Messina, M., Miller, E.H., Milosovic, B., Milutinovic, S., Miuchi, K., Miyata, R., Mizrachi, E., Molinario, A., Monteiro, C.M. B., Monzani, M.E., Mora, K., Moriyama, S., Morrison, E., Morteau, E., Mosbacher, Y., Mount, B.J., Mueller, J., Murdy, M., Murphy, A.St J., Murra, M., Naylor, A., Nelson, H.N., Neves, F., Newstead, J.L., Nguyen, A., Ni, K., O'Hare, C., Oberlack, U., Obradovic, M., Olcina, I., Oliver-Mallory, K.C., Orebi Gann, G.D., Orpwood, J., Ouahada, S., Oyulmaz, K., und Paetsch. 2025. „Neutrinoless double beta decay sensitivity of the XLZD rare event observatory.“ Preprint. Journal of Physics G: Nuclear and Particle Physics 52 (4): 045102. doi: 10.1088/1361-6471/adb900.
- Horst, Max, Andelkovic, Zoran, Brandau, Carsten, Chen, Rui Jiu, Fernandez, David Freire, Geppert, Christopher, Glorius, Jan, Hannen, Volker, Hess, Regina, Imgram, Phillip, Klammes, Sebastian, Koenig, Kristian, Leckenby, Guy, Litvinov, Sergey, Litvinov, Yury A., Lorentz, Bernd, Meisner, Johann, Mohr, Konstantin, Mueller, Patrick, Passon, Stephan, Ratajczyk, Tim, Rausch, Simon, Rossbach, Jon, Sanchez, Rodolfo, Sanjari, Shahab, Sidhu, Ragandeep Singh, Spillmann, Uwe, Steck, Markus, Stoehlker, Thomas, Ueberholz, Ken, Weinheimer, Christian, Winters, Danyal, und Noertershaeuser, Wilfried. 2025. „Storage-ring laser spectroscopy of accelerator-produced hydrogen-like 208Bi82+.“ Nature Physics 025 (02825). doi: 10.1038/s41567-025-02885-x.
- Aker, Max, Batzler, Dominic, Beglarian, Armen, Behrens, Jan, Beisenkoetter, Justus, Biassoni, Matteo, Bieringer, Benedikt, Biondi, Yanina, Block, Fabian, Bobien, Steffen, Boettcher, Matthias, Bornschein, Beate, Bornschein, Lutz, Caldwell, Tom S., Carminati, Marco, Chatrabhuti, Auttakit, Chilingaryan, Suren, Daniel, Byron A., Debowski, Karol, Descher, Martin, Barrero, Deseada Diaz, Doe, Peter J., Dragoun, Otokar, Drexlin, Guido, Edzards, Frank, Eitel, Klaus, Ellinger, Enrico, Engel, Ralph, Enomoto, Sanshiro, Felden, Arne, Fengler, Caroline, Fiorini, Carlo, Formaggio, Joseph A., Forstner, Christian, Fraenkle, Florian M., Gauda, Kevin, Gavin, Andrew S., Gil, Woosik, Glueck, Ferenc, Grohmann, Steffen, Groessle, Robin, Gumbsheimer, Rainer, Gutknecht, Nathanael, Hannen, Volker, Hasselmann, Leonard, Haussmann, Norman, Helbing, Klaus, Henke, Hanna, Heyns, Svenja, Hickford, Stephanie, Hiller, Roman, Hillesheimer, David, Hinz, Dominic, Hoehn, Thomas, Huber, Anton, Jansen, Alexander, Karl, Christian, Kellerer, Jonas, Khosonthongkee, Khanchai, Kleifges, Matthias, Klein, Manuel, Kohpeiss, Joshua, Koehler, Christoph, Koellenberger, Leonard, Kopmann, Andreas, Kovac, Neven, Kovalik, Alojz, Krause, Holger, La Cascio, Luisa, Lasserre, Thierry, Lauer, Joscha, Le, Thanh-Long, Lebeda, Ondrej, Lehnert, Bjoern, Li, Gen, Lokhov, Alexey, Machatschek, Moritz, Mark, Martin, Marsteller, Alexander, Martin, Eric L., Melzer, Christin, Mertens, Susanne, Mohanty, Shailaja, Mostafa, Jalal, Mueller, Klaus, Nava, Andrea, Neumann, Holger, Niemes, Simon, Onillon, Anthony, Parno, Diana S., Pavan, Maura, Pinsook, Udomsilp, Poon, Alan W. P., Lopez Poyato, Jose Manuel, Pozzi, Stefano, Priester, Florian, Ralis, Jan, Ramachandran, Shivani, Robertson, R.G. Hamish, Rodenbeck, Caroline, Roellig, Marco, Roettele, Carsten, Rysav, Milos, Sack, Rudolf, Saenz, Alejandro, Salomon, Richard, Schaefer, Peter, Schloesser, Magnus, Schloesser, Klaus, Schlueter, Lisa, Schneidewind, Sonja, Schnurr, Ulrich, Schrank, Michael, Schuermann, Jannis, Schuetz, Ann-Kathrin, Schwemmer, Alessandro, Schwenck, Adrian, Sefcik, Michal, Siegmann, Daniel, Simon, Frank, Spanier, Felix, Spreng, Daniela, Sreethawong, Warintorn, Steidl, Markus, Storek, Jaroslav, Stribl, Xaver, Sturm, Michael, Suwonjandee, Narumon, Jerome, Nicholas Tan, Telle, Helmut H., Thorne, Larisa A., Thuemmler, Thomas, Tirolf, Simon, Titov, Nikita, Tkachev, Igor, Urban, Korbinian, Valerius, Kathrin, Venos, Drahoslav, Weinheimer, Christian, Welte, Stefan, Wendel, Juergen, Wiesinger, Christoph, Wilkerson, John F., Wolf, Joachim, Wuestling, Sascha, Wydra, Johanna, Xu, Weiran, Zadorozhny, Sergey, und Zeller, Genrich. 2025. „Direct neutrino-mass measurement based on 259 days of KATRIN data.“ Preprint. Science 388 (6743). doi: 10.1126/science.adq9592.
- Aprile, E, und others, (X ENON Collaboration). 2025. „XENONnT analysis: Signal reconstruction, calibration, and event selection.“ Preprint. Physical Review D (PRD) 111 (6): 062006.. doi: 10.1103/PhysRevD.111.062006.
- Aprile, E, und others. 2025. „First Search for Light Dark Matter in the Neutrino Fog with XENONnT.“ Preprint. Physical Review Letters 134 (11): 111802–111802. doi: 10.1103/PhysRevLett.134.111802.
- Aprile, E, und others. 2025. „Search for Light Dark Matter in Low-Energy Ionization Signals from XENONnT.“ Preprint. Physical Review Letters 134 (16): 161004–161004. doi: 10.1103/PhysRevLett.134.161004.
- Acharya, H, und others. 2025. „Measurement of the inhomogeneity of the KATRIN tritium source electric potential by high-resolution spectroscopy of conversion electrons from $\mathbf {^{83m}}$Kr.“ The European Physical Journal C 85 (7): 757–757. doi: 10.1140/epjc/s10052-025-14354-z.
- Aprile, E, und others. 2025. „The neutron veto of the XENONnT experiment: results with demineralized water.“ The European Physical Journal C 85 (6): 695–695. doi: 10.1140/epjc/s10052-025-14105-0.
- Aker, M, und others. 2025. „First Constraints on General Neutrino Interactions Based on KATRIN Data.“ Physical Review Letters 134 (25): 251801–251801. doi: 10.1103/PhysRevLett.134.251801.
2024
- Collaboration], E.Aprile et al. [XENON. 2024. „Design and performance of the field cage for the XENONnT experiment.“ The European Physical Journal C 84 (2): 138. doi: 10.1140/epjc/s10052-023-12296-y.
- Collaboration], M.Adrover et al. [DARWIN. 2024. „Cosmogenic background simulations for the DARWIN observatory at different underground locations.“ The European Physical Journal C 84 (1): 88. doi: 10.1140/epjc/s10052-023-12298-w.
- Fieguth, Alexander, Lang, Rafael F, Weinheimer, Christian, und Wittweg, Christian. 2024. „Mehr als Dunkle Materie - Xenondetektoren für Dunkle Materie sind die Schweizer Taschenmesser der Astroteilchenphysik bei niedrigen Energien.“ Physik Journal 23 (3): 40–46.
- Althüser, Lutz, Murra, Michael, Weinheimer, Christian, und Wenz, Daniel. 2024. „Das feinste Destillat - Kryogene Destillation verhilft Xenondetektoren zu höchster Sensitivität.“ Physik Journal 23 (3): 48–52.
- Schneidewind, Sonja, Schürmann, Jannis, Lokhov, Alexey, Weinheimer, Christian, und Saenz, Alejandro. 2024. „Improved treatment of the T_2 molecular final-states uncertainties for the KATRIN neutrino-mass measurement.“ The European Physical Journal C 84: 494. doi: 10.1140/epjc/s10052-024-12802-w.
- Aprile, E, und others, (X ENON Collaboration). 2024. „Offline tagging of radon-induced backgrounds in XENON1T and applicability to other liquid xenon time projection chambers.“ Physical Review D (PRD) 110 (1): 012011. doi: 10.1103/PhysRevD.110.012011.
- Chyzh, R, Tauzin, G, Yvon, D, Sung, C, Breton, D, Maalmi, J, Schäfers, K, Weinheimer, C, und Sharyy, V. 2024. „Characterization of the BOLDPET optical prototype, an innovative Cherenkov detector for 511 keV \ensuremath{γ} radiation.“ Journal of Instrumentation 19 (07): P07018. doi: 10.1088/1748-0221/19/07/P07018.
- Aprile, E, und others, (X ENON Collaboration). 2024. „Effective field theory and inelastic dark matter results from XENON1T.“ Physical Review D (PRD) 109 (11): 112017. doi: 10.1103/PhysRevD.109.112017.
- Collaboration, XENON, Aprile, E., und others. 2024. „The XENONnT dark matter experiment.“ The European Physical Journal C 84 (8): 784. doi: 10.1140/epjc/s10052-024-12982-5.
- Aprile, E, Aalbers, J, Abe, K, Ahmed, Maouloud S, Althueser, L, Andrieu, B, Angelino, E, Antón, Martin D, Arneodo, F, Baudis, L, Bazyk, M, Bellagamba, L, Biondi, R, Bismark, A, Boese, K, Brown, A, Bruno, G, Budnik, R, Cai, C, Capelli, C, Cardoso, JMR, Cimental, Chávez AP, Colijn, AP, Conrad, J, Cuenca-García, JJ, D'Andrea, V, Daniel, Garcia LC, Decowski, MP, Deisting, A, Di Donato, C, Di Gangi, P, Diglio, S, Eitel, K, Elykov, A, Ferella, AD, Ferrari, C, Fischer, H, Flehmke, T, Flierman, M, Fulgione, W, Fuselli, C, Gaemers, P, Gaior, R, Galloway, M, Gao, F, Ghosh, S, Giacomobono, R, Glade-Beucke, R, Grandi, L, Grigat, J, Guan, H, Guida, M, Gyorgy, P, Hammann, R, Higuera, A, Hils, C, Hoetzsch, L, Hood, NF, Iacovacci, M, Itow, Y, Jakob, J, Joerg, F, Kaminaga, Y, Kara, M, Kavrigin, P, Kazama, S, Kobayashi, M, Koke, D, Kopec, A, Kuger, F, Landsman, H, Lang, RF, Levinson, L, Li, I, Li, S, Liang, S, Lin, Y, Lindemann, S, Lindner, M, Liu, K, Liu, M, Loizeau, J, Lombardi, F, Long, J, Lopes, JAM, Luce, T, Ma, Y, Macolino, C, Mahlstedt, J, Mancuso, A, Manenti, L, Marignetti, F, Marrodán, Undagoitia T, Martens, K, Masbou, J, Masson, E, Mastroianni, S, Melchiorre, A, Merz, J, Messina, M, Michael, A, Miuchi, K, Molinario, A, Moriyama, S, Mor\aa{}, K, Mosbacher, Y, Murra, M, Müller, J, Ni, K, Oberlack, U, Paetsch, B, Pan, Y, Pellegrini, Q, Peres, R, Peters, C, Pienaar, J, Pierre, M, Plante, G, Pollmann, TR, Principe, L, Qi, J, Qin, J, Ramírez, García D, Rajado, M, Singh, R, Sanchez, L, Santos, JMF, Sarnoff, I, Sartorelli, G, Schreiner, J, Schulte, P, Schulze, Eiß{}ing H, Schumann, M, Scotto, Lavina L, Selvi, M, Semeria, F, Shagin, P, Shi, S, Shi, J, Silva, M, Simgen, H, Takeda, A, Tan, P, Thers, D, Toschi, F, Trinchero, G, Tunnell, CD, Tönnies, F, Valerius, K, Vecchi, S, Vetter, S, Villazon, Solar FI, Volta, G, Weinheimer, C, Weiss, M, Wenz, D, Wittweg, C, Wu, VHS, Xing, Y, Xu, D, Xu, Z, Yamashita, M, Yang, L, Ye, J, Yuan, L, Zavattini, G, und Zhong, M. 2024. „First Indication of Solar $^{8}\mathrmB$ Neutrinos via Coherent Elastic Neutrino-Nucleus Scattering with XENONnT.“ Physical Review Letters 133: 191002–191002. doi: 10.1103/PhysRevLett.133.191002.
- Aker, Met al. [KATRIN Collaboration]. 2024. „Measurement of the electric potential and the magnetic field in the shifted analysing plane of the KATRIN experiment.“ The European Physical Journal C 84: 1258. doi: 10.1140/epjc/s10052-024-13596-7.
2023
- Aker, M, und others. 2023. „Search for Lorentz-invariance violation with the first KATRIN data.“ Physical Review D (PRD) 107 (8): 082005–082005. doi: 10.1103/PhysRevD.107.082005.
- Aalbers, J, und others. 2023. „A next-generation liquid xenon observatory for dark matter and neutrino physics.“ Journal of Physics G: Nuclear and Particle Physics 50 (1): 013001–013001. doi: 10.1088/1361-6471/ac841a.
- Aprile, E, und others. 2023. „Low-energy calibration of XENON1T with an internal $^{{\textbf {37}}}$Ar source.“ The European Physical Journal C 83 (6): 542–542. doi: 10.1140/epjc/s10052-023-11512-z.
- Aprile, E, und others. 2023. „Detector signal characterization with a Bayesian network in XENONnT.“ Physical Review D (PRD) 108 (1): 012016–012016. doi: 10.1103/PhysRevD.108.012016.
- Aprile, E, und others. 2023. „Searching for Heavy Dark Matter near the Planck Mass with XENON1T.“ Physical Review Letters 130 (26): 261002–261002. doi: 10.1103/PhysRevLett.130.261002.
- Aprile, E, und others. 2023. „First Dark Matter Search with Nuclear Recoils from the XENONnT Experiment.“ Physical Review Letters 131 (4): 041003–041003. doi: 10.1103/PhysRevLett.131.041003.
- Aprile, E, und others. 2023. „Search for events in XENON1T associated with gravitational waves.“ Physical Review D (PRD) 108 (7): 072015–072015. doi: 10.1103/PhysRevD.108.072015.
- Aprile, E, und others. 2023. „The triggerless data acquisition system of the XENONnT experiment.“ Journal of Instrumentation 18 (07): P07054–P07054. doi: 10.1088/1748-0221/18/07/P07054.
- Aker, M, und others. 2023. „Search for keV-scale sterile neutrinos with the first KATRIN data.“ Journal of Instrumentation 83 (8): 763–763. doi: 10.1140/epjc/s10052-023-11818-y.
- Collaboration], Agostini F et al. [DARWIN. 2023. „Erratum to: Sensitivity of the DARWIN observatory to the neutrinoless double beta decay of $^{136}$Xe.“ The European Physical Journal C 83: 996. doi: 10.1140/epjc/s10052-020-8196-z.
2022
- Follin, M., Chyzh, R., Sung, C.-H., Breton, D., Maalmi, J., Chaminade, T., Delagnes, E., Schäfers, K., Weinheimer, C., Yvon, D., und Sharyy, V. 2022. „High resolution MCP-PMT readout using transmission lines.“ Nuclear Instruments and Methods in Physics Research A 1027: 166092.. doi: 10.1016/j.nima.2021.166092.
- Fränkle, F.M., Pollithy), A.Schaller (nee, Blaum, K., Bornschein, L., Drexlin, G., Glück, F., Hannen, V., Harms, F., Hinz, D., Johnston, K., Karthein, J., Köster, U., Lokhov, A., Mertens, S., Müller, F., Osipowicz, A., Ranitzsch, P.C.-O., Schlösser, K., Thümmler, T., Trost, N., Weinheimer, C., und Wolf, J. 2022. „KATRIN background due to surface radioimpurities.“ Astroparticle Physics 138: 102686.. doi: 10.1016/j.astropartphys.2022.102686.
- Aker, M., Beglarian, A., Behrens, J., Berlev, A., Besserer, U., Bieringer, B., Block, F., Bobien, S., Böttcher, M., Bornschein, B., Bornschein, L., Brunst, T., Caldwell, T.S., Carney, R.M. D., Cascio, L.La, Chilingaryan, S., Choi, W., Debowski, K., Deffert, M., Descher, M., Barrero, D.Díaz, Doe, P.J., Dragoun, O., Drexlin, G., Eitel, K., Ellinger, E., Engel, R., Enomoto, S., Felden, A., Formaggio, J.A., Fränkle, F.M., Franklin, G.B., Friedel, F., Fulst, A., Gauda, K., Gil, W., Glück, F., Grössle, R., Gumbsheimer, R., Gupta, V., Höhn, T., Hannen, V., Haußmann, N., Helbing, K., Hickford, S., Hiller, R., Hillesheimer, D., Hinz, D., Houdy, T., Huber, A., Jansen, A., Karl, C., Kellerer, F., Kellerer, J., Kleifges, M., Klein, M., Köhler, C., Köllenberger, L., Kopmann, A., Korzeczek, M., Kovalík, A., Krasch, B., Krause, H., Kunka, N., Lasserre, T., Le, T.L., Lebeda, O., Lehnert, B., Lokhov, A., Machatschek, M., Malcherek, E., Mark, M., Marsteller, A., Martin, E.L., Melzer, C., Menshikov, A., Mertens, S., Mostafa, J., Müller, K., Neumann, H., Niemes, S., Oelpmann, P., Parno, D.S., Poon, A.W. P., Poyato, J.M. L., Priester, F., Ramachandran, S., Robertson, R.G. H., Rodejohann, W., Röllig, M., Röttele, C., Rodenbeck, C., Ryšavý, M., Sack, R., Saenz, A., Schäfer, P., Pollithy, A.Schaller née, Schimpf, L., Schlösser, K., Schlösser, M., Schlüter, L., Schneidewind, S., Schrank, M., Schulz, B., Schwemmer, A., Šefčík, M., Sibille, V., Siegmann, D., Slezák, M., Spanier, F., Steidl, M., Sturm, M., Sun, M., Tcherniakhovski, D., Telle, H.H., Thorne, L.A., Thümmler, T., Titov, N., Tkachev, I., Urban, K., Valerius, K., Vénos, D., Hernández, A.P. Vizcaya, Weinheimer, C., Welte, S., Wendel, J., Wilkerson, J.F., Wolf, J., Wüstling, S., Wydra, J., Xu, W., Yen, Y.-R., Zadoroghny, S., und Zeller, G. 2022. „Direct neutrino-mass measurement with sub-electronvolt sensitivity.“ Nature Physics 18: 160–166. doi: 10.1038/s41567-021-01463-1.
- Aprile, E, und Collaboration], et al. [XENON. 2022. „Double-Weak Decays of $^{124}$Xe and $^{136}$Xe in the XENON1T and XENONnT Experiments.“ Physical Review C 106: 024328. doi: 10.1103/PhysRevC.106.024328.
- Aprile, E, und Collaboration], et al. [XENON. 2022. „Material radiopurity control in the XENONnT experiment.“ European Physical Journal C: Particles and Fields 82: 599. doi: 10.1140/epjc/s10052-022-10345-6.
- Aker, M, und Collaboration], et al. [KATRIN. 2022. „New Constraint on the Local Relic Neutrino Background Overdensity with the First KATRIN Data Runs.“ Physical Review Letters 129: 011806. doi: 10.1103/PhysRevLett.129.011806.
- Rodenbeck, C., Wüstling, S., Enomoto, S., Hartmann, J., Rest, O., und Weinheimer, T.Thümmler and C. 2022. „Wideband precision stabilization of the -18.6 kV retarding voltage for the KATRIN spectrometer.“ Journal of Instrumentation 17: P06003. doi: 10.1088/1748-0221/17/06/P06003.
- Murra, M., Schulte, D., Cristescu, I., Disdier, J.-M., Huhmann, C., und Weinheimer, D.Tatananni and C. 2022. „Cryogenic bath-type heat exchangers for ultra-pure noble gas applications.“ Journal of Instrumentation 17: P05037. doi: 10.1088/1748-0221/17/05/P05037.
- Aprile, E, und Collaboration], et al. [XENON. 2022. „Application and modeling of an online distillation method to reduce krypton and argon in XENON1T.“ Progress of Theoretical and Experimental Physics 2022: 053H01. doi: 10.1093/ptep/ptac074.
- Aker, M, und Collaboration], et al. [KATRIN. 2022. „Improved eV-scale Sterile-Neutrino Constraints from the Second KATRIN Measurement Campaign.“ Physical Review D (PRD) 105: 072004. doi: 10.1103/PhysRevD.105.072004.
- Lokhov1, Alexey, Bieringer, Benedikt, Drexlin, Guido, Dyba, Stephan, Gauda, Kevin, Fränkle, Florian, Glück, Ferenc, Hannen, Volker, Hinz, Dominic, Mertens, Susanne, Rodenbeck, Caroline, Schaller, Anna, und Weinheimer, Christian. 2022. „Background reduction at the KATRIN experiment by the shifted analysing plane configuration.“ The European Physical Journal C 82: 258. doi: 10.1140/epjc/s10052-022-10220-4.
- Aker, M, Balzer, M, Batzler, D, Beglarian, A, Behrens, J, Berlev, A, Besserer, U, Biassoni, M, Bieringer, B, Block, F, Bobien, S, Bombelli, L, Bormann, D, Bornschein, B, Bornschein, L, Böttcher, M, Brofferio, C, Bruch, C, Brunst, T, Caldwell, TS, Carminati, M, Carney, RMD, Chilingaryan, S, Choi, W, Cremonesi, O, Debowski, K, Descher, M, Barrero, DD, Doe, PJ, Dragoun, O, Drexlin, G, Edzards, F, Eitel, K, Ellinger, E, Engel, R, Enomoto, S, Felden, A, Fink, D, Fiorini, C, Formaggio, JA, Forstner, C, Fränkle, FM, Franklin, GB, Friedel, F, Fulst, A, Gauda, K, Gavin, AS, Gil, W, Glück, F, Grande, A, Grössle, R, Gugiatti, M, Gumbsheimer, R, Hannen, V, Hartmann, J, Hau{ß}mann, N, Helbing, K, Hickford, S, Hiller, R, Hillesheimer, D, Hinz, D, Höhn, T, Houdy, T, Huber, A, Jansen, A, Karl, C, Kellerer, J, King, P, Kleifges, M, Klein, M, Köhler, C, Köllenberger, L, Kopmann, A, Korzeczek, M, Koval{í}}k, A, Krasch, B, Krause, H, Lasserre, T, Cascio, LL, Lebeda, O, Lechner, P, Lehnert, B, Le TL, Lokhov, A, Machatschek, M, Malcherek, E, Manfrin, D, Mark, M, Marsteller, A, Martin, EL, Mazzola, E, Melzer, C, Mertens, S, Mostafa, J, Müller, K, Nava, A, Neumann, H, Niemes, S, Oelpmann, P, Onillon, A, Parno, DS, Pavan, M, Pigliafreddo, A, Poon, AWP, Poyato, JML, Pozzi, S, Priester, F, Puritscher, M, Radford, DC, R{á}}li{š}}, J, Ramachandran, S, Robertson, RGH, Rodejohann, W, Rodenbeck, C, Röllig, M, Röttele, C, Ry{š}}av{ý}}, M, Sack, R, Saenz, A, Salomon, RWJ, Schäfer, P, Schimpf, L, Schlösser, K, Schlösser, M, Schlüter, L, Schneidewind, S, Schrank, M, Schütz, A, Schwemmer, A, Sedlak, A, {Š}}ef{č}}{í}}k, M, Sibille, V, Siegmann, D, Slez{á}}k, M, Spanier, F, Spreng, D, Steidl, M, Sturm, M, Telle, HH, Thorne, LA, Thümmler, T, Titov, N, Tkachev, I, Trigilio, P, Urban, K, Valerius, K, V{é}}nos, D, Hern{á}}ndez, APV, Voigt, P, Weinheimer, C, Welte, S, Wendel, J, Wiesinger, C, Wilkerson, JF, Wolf, J, Wunderl, L, Wüstling, S, Wydra, J, Xu, W, Zadoroghny, S, und Zeller, G. 2022. „{KATRIN}: status and prospects for the neutrino mass and beyond.“ Journal of Physics G: Nuclear and Particle Physics 49 (10): 100501–100501. doi: 10.1088/1361-6471/ac834e.
- Aprile, E, und others. 2022. „An approximate likelihood for nuclear recoil searches with~XENON1T data.“ The European Physical Journal C 82 (11): 989–989. doi: 10.1140/epjc/s10052-022-10913-w.
- Aprile, E, und others. 2022. „Search for New Physics in Electronic Recoil Data from XENONnT.“ Physical Review Letters 129 (16): 161805–161805. doi: 10.1103/PhysRevLett.129.161805.
- Gauda, K, und others. 2022. „An active transverse energy filter to differentiate low energy particles with large pitch angles in a strong magnetic field.“ The European Physical Journal C 82 (10): 922–922. doi: 10.1140/epjc/s10052-022-10858-0.
- Gerke, B, und others. 2022. „Suppression of electrical breakdown phenomena in liquid TriMethyl Bismuth based ionization detectors.“ Journal of Instrumentation 17 (09): P09029–P09029. doi: 10.1088/1748-0221/17/09/P09029.
- Murra, M, Schulte, D, Huhmann, C, und Weinheimer, C. 2022. „Design, construction and commissioning of a high-flow radon removal system for XENONnT.“ The European Physical Journal C 82 (12): 1104–1104. doi: 10.1140/epjc/s10052-022-11001-9.
- Peters, S, Gerke, B, Hannen, V, Huhmann, C, Marquardt, N, Schäfers, K, Yvon, D, Sharyy, V, und Weinheimer, C. 2022. „Electro-purification studies and first measurement of relative permittivity of TMBi.“ Journal of Instrumentation 17 (12): P12021–P12021. doi: 10.1088/1748-0221/17/12/P12021.
- Aprile, E, und others. 2022. „Emission of single and few electrons in XENON1T and limits on light dark matter.“ Physical Review D (PRD) 106 (2): 022001–022001. doi: 10.1103/PhysRevD.106.022001.
2021
- Schulte, D, Murra, M, Schulte, P, Huhmann, C, und Weinheimer, C. 2021. „Ultra-clean radon-free four cylinder magnetically-coupled piston pump.“ Journal of Instrumentation 16 P09011. doi: 10.1088/1748-0221/16/09/P09011.
- Aker, M, und et, al. [K ATR IN Collaboration]. 2021. „The design, construction, and commissioning of the KATRIN experiment.“ Journal of Instrumentation 16 (08): T08015.. doi: 10.1088/1748-0221/16/08/t08015.
- Colloaboration], Aprile E et al. [XENON. 2021. „$^{222}$Rn emanation measurements for the XENON1T experiment.“ Eur. Phys. J. C 81 (4): 337.. doi: 10.1140/epjc/s10052-020-08777-z.
- Aker, M, und et, al. [K ATR IN Collaboration]. 2021. „Bound on 3+1 Active-Sterile Neutrino Mixing from the First Four-Week Science Run of KATRIN.“ Phys. Rev. Lett. 126 (9): 091803.. doi: 10.1103/PhysRevLett.126.091803.
- Aprile, E, und et, al. [X ENON Collaboration]. 2021. „Search for inelastic scattering of WIMP dark matter in XENON1T.“ Phys. Rev. D 103 (6): 063028.. doi: 10.1103/PhysRevD.103.063028.
- Aprile, E, und et, al. [X ENON Collaboration]. 2021. „Search for Coherent Elastic Scattering of Solar $^8$B Neutrinos in the XENON1T Dark Matter Experiment.“ Phys. Rev. Lett. 126: 091301.. doi: 10.1103/PhysRevLett.126.091301.
- Aker, M, und et, al. [K ATR IN Collaboration]. 2021. „Analysis methods for the first KATRIN neutrino-mass measurement.“ Phys. Rev. D 104 (1): 012005.. doi: 10.1103/PhysRevD.104.012005.
- Wagenpfeil, M, und others. 2021. „Reflectivity of VUV-sensitive silicon photomultipliers in liquid Xenon.“ JINST 16 (08): P08002.. doi: 10.1088/1748-0221/16/08/P08002.
- Winzen, D, und others. 2021. „Laser spectroscopy of the $^2{\mathrmS}_{1/2}{-}^2{\mathrmP}_{{1}/2}$, $^2{\mathrmP}_{3/2}$ transitions in stored and cooled relativistic C$^{3+}$ ions.“ Sci. Rep. 11 (1): 9370.. doi: 10.1038/s41598-021-88926-w.
- Aker, M, und et, al. [K ATR IN Collaboration]. 2021. „Precision measurement of the electron energy-loss function in tritium and deuterium gas for the KATRIN experiment.“ Eur. Phys. J. C 81 (7): 579.. doi: 10.1140/epjc/s10052-021-09325-z.
2020
- Fulst, A, Lokhov, A, Fedkevych, M, Steinbrink, N, und Weinheimer, C. 2020. „Time-Focusing Time-of-Flight, a new method to turn a MAC-E-filter into a quasi-differential spectrometer.“ European Physical Journal C 80: 956. doi: 10.1140/epjc/s10052-020-08484-9.
- Weinheimer, C. 2020. „Searching for mysterious dark matter particles and the mass of neutrinos.“ The Innovation Platform 3: 88–91.
- Collaboration], Aprile E et al. [XENON. 2020. „Energy resolution and linearity of XENON1T in the MeV energy range.“ European Physical Journal C 80: 785. doi: 10.1140/epjc/s10052-020-8284-0.
- Collaboration], Agostinoi E et al. [DARWIN. 2020. „Sensitivity of the DARWIN observatory to the neutrinoless double beta decay of ^{136}Xe.“ European Physical Journal C 80: 808. doi: 10.1140/epjc/s10052-020-8196-z.
- Collaboration], Aker M et al. [KATRIN. 2020. „Suppression of Penning discharges between the KATRIN spectrometers.“ European Physical Journal C 80: 821. doi: 10.1140/epjc/s10052-020-8278-y.
- Altenmüller, K, und et, al. (K ATR IN Collaboration). 2020. „High-resolution spectroscopy of gaseous ^{83m}Kr conversion electrons with the KATRIN experiment.“ J. Phys. G 47 (6): 065002.. doi: 10.1140/epjc/s10052-020-7718-z.
- Collaboration), Aker M et al. (KATRIN. 2020. „First operation of the KATRIN experiment with tritium.“ European Physical Journal C 80: 264. doi: 10.1140/epjc/s10052-020-7718-z.
- Farradèche, M., Tauzin, G., Mols, J-Ph., Bard, J-P., Dognon, J-P., Weinheimer, C., Schäfers, K.P., Sharyy, V., und Yvon, D. 2020. „Ionization parameters of Trimethylbismuth for high-energy photon detection.“ Nuclear Instruments and Methods A 958: 162646. doi: 10.1016/j.nima.2019.162646.
- Drexlin, G, Valerius, K, und Weinheimer, C. 2020. „Den kosmischen Leichtgewichten auf der Spur.“ Physik in unserer Zeit 51 (3): 116–122. doi: 10.1002/piuz.202001576.
- Drexlin, G, und Weinheimer, C. 2020. „A voyage to the heart of the neutrino.“ CERN Courier 60 (1): 28–32.
- Aalbers, J, und et, al. [D ARW IN Collaboration]. 2020. „Solar Neutrino Detection Sensitivity in DARWIN via Electron Scattering.“ European Physical Journal C 80: 1133. doi: 10.1140/epjc/s10052-020-08602-7.
- Wittweg, C, Lenardo, B, Fieguth, A, und Weinheimer, C. 2020. „Detection prospects for the second-order weak decays of $^{124}$Xe in multi-tonne xenon time projection chambers.“ European Physical Journal C 80: 1161. doi: 10.1140/epjc/s10052-020-08726-w.
- Althueser, L, Lindemann, S, Murra, M, Schumann, M, Wittweg, C, und Weinheimer, C. 2020. „VUV Transmission of PTFE for Xenon-based Particle Detectors.“ Journal of Instrumentation 15: P12021. doi: 10.1088/1748-0221/15/12/P12021.
- Aprile, E, und et, al. [X ENON Collaboration]. 2020. „Excess Electronic Recoil Events in XENON1T'.“ Physical Review D (PRD) 102: 072004. doi: 10.1103/PhysRevD.102.072004.
- Collaboration], Aprile E et al. [XENON. 2020. „Projected WIMP sensitivity of the XENONnT dark matter experiment.“ Journal of Cosmology and Astroparticle Physics 11: 031. doi: 10.1088/1475-7516/2020/11/031.
- Collaboration], Aker M et al. [KATRIN. 2020. „Quantitative Long-Term Monitoring of the Circulating Gases in the KATRIN Experiment Using Raman Spectroscopy.“ Sensors 20: 4827. doi: 10.3390/s20174827.
2019
- al., V.Hannen et. 2019. „Lifetimes and g-factors of the HFS states in H-like and Li-like bismuth.“ J. Phys. G 52: 085003. doi: 10.1088/1361-6455/ab0ef0.
- Collaboration], E.Aprile et al. [XENON. 2019. „XENON1T Dark Matter Data Analysis: Signal \& Background Models, and Statistical Inference.“ Physical Review D (PRD) 99: 112009. doi: 10.1103/PhysRevD.99.112009.
- Rest, O., Winzen, D., Bauer, S., Berendes, R., Meisner, J., Thümmler, T., und Weinheimer, S.Wüstling and C. 2019. „A novel ppm-precise absolute calibration method for precision high-voltage dividers.“ Metrologia 56: 045007. doi: 10.1088/1681-7575/ab2997.
- al., W.Nörtershäuser et. 2019. „The hyperfine puzzle of strong-field bound-state QED.“ Hyperfine Interactions 240: 51. doi: 10.1007/s10751-019-1569-8.
- Collaboration], K.Altenmüller et al. [KATRIN. 2019. „Gamma-induced background in the KATRIN main spectrometer.“ European Physical Journal C 79: 807. doi: 10.1140/epjc/s10052-019-7320-4.
- Collaboration], E.Aprile et al. [XENON. 2019. „The XENON1T Data Acquisition System.“ Journal of Instrumentation 14: P07016.
- Collaboration], E.Aprile et al. [XENON. 2019. „XENON1T Dark Matter Data Analysis: Signal Reconstruction, Calibration and Event Selection.“ Physical Review D (PRD) 100: 052014. doi: 10.1103/PhysRevD.100.052014.
- al., Aprlle E et. 2019. „Search for Light Dark Matter Interactions Enhanced by the Migdal effect or Bremsstrahlung in XENON1T.“ Physical Review Letters 123: 241803. doi: 10.1103/PhysRevLett.123.241803.
- al., Aprile E et. 2019. „Light Dark Matter Search with Ionization Signals in XENON1T.“ Physical Review Letters 123: 251801. doi: 10.1103/PhysRevLett.123.251801.
- Fiaschi, J, Klasen, M, Vargas, M, Weinheimer, C, und and, Zeinstra S. 2019. „MeV neutrino dark matter: Relic density, lepton flavour violation and electron recoil.“ Journal of High Energy Physics (JHEP) 1911: 129. doi: 10.1007/JHEP11(2019)129.
- Aker, M.et al. 2019. „Improved upper limit on the neutrino mass from a direct kinematic method by KATRIN.“ Physical Review Letters 123: 221802. doi: 10.1103/PhysRevLett.123.221802.
- Altenmüller, K, und others. 2019. „Muon-induced background in the KATRIN main spectrometer.“ Astropart. Phys. 108: 40–49. doi: 10.1016/j.astropartphys.2019.01.003.
- Kleesiek, M, Behrens, J, Drexlin, G, Eitel, K, Erhard, M, Formaggio, JA, Glück, F, Groh, S, Hötzel, M, Mertens, S, Poon, AW, Weinheimer, C, und Valerius, K. 2019. „$β$-Decay Spectrum, Response Function and Statistical Model for Neutrino Mass Measurements with the KATRIN Experiment.“ Eur. Phys. J. C79 (3): 204.. doi: 10.1140/epjc/s10052-019-6686-7.
- Aprile, E., Aalbers, J., Agostini, F., Alfonsi, M., Althueser, L., Amaro, F.D., Anthony, M., Antochi, V.C., Arneodo, F., Baudis, L., Bauermeister, B., Benabderrahmane, M.L., Berger, T., Breur, P.A., Brown, A., Brown, A., Brown, E., Bruenner, S., Bruno, G., Budnik, R., Capelli, C., Cardoso, J.M. R., Cichon, D., Coderre, D., Colijn, A.P., Conrad, J., Cussonneau, J.P., Decowski, M.P., Perio, P.de, Gangi, P.Di, Giovanni, A.Di, Diglio, S., Elykov, A., Eurin, G., Fei, J., Ferella, A.D., Fieguth, A., Fulgione, W., Rosso, A.Gallo, Galloway, M., Gao, F., Garbini, M., Grandi, L., Greene, Z., Hasterok, C., Hogenbirk, E., Howlett, J., Iacovacci, M., Itay, R., Joerg, F., Kaminsky, B., Kazama, S., Kish, A., Koltman, G., Kopec, A., Landsman, H., Lang, R.F., Levinson, L., Lin, Q., Lindemann, S., Lindner, M., Lombardi, F., Lopes, J.A. M., Fune, E.López, Macolino, C., Mahlstedt, J., Manfredini, A., Marignetti, F., Undagoitia, T.Marrodán, Masbou, J., Masson, D., Mastroianni, S., Messina, M., Micheneau, K., Miller, K., Molinario, A., Morå, K., Murra, M., Naganoma, J., Ni, K., Oberlack, U., Odgers, K., Pelssers, B., Piastra, F., Pienaar, J., Pizzella, V., Plante, G., Podviianiuk, R., Priel, N., Qiu, H., García, D.Ramírez, Reichard, S., Riedel, B., Rizzo, A., Rocchetti, A., Rupp, N., Santos, J.M. F. dos, Sartorelli, G., Šarčević, N., Scheibelhut, M., Schindler, S., Schreiner, J., Schulte, D., Schumann, M., Lavina, L.Scotto, Selvi, M., Shagin, P., Shockley, E., Silva, M., Simgen, H., Therreau, C., Thers, D., Toschi, F., Trinchero, G., Tunnell, C., Upole, N., Vargas, M., Wack, O., Wang, H., Wang, Z., Wei, Y., Weinheimer, C., Wittweg, C., Wulf, J., Ye, J., Zhang, Y., Zhu, T., Zopounidis, J.P., Hoferichter, M., Klos, P., Menéndez, J., und Schwenk, A. 2019. „First results on the scalar WIMP-pion coupling, using the XENON1T experiment.“ Phys. Rev. Lett. 122 (7): 071301.. doi: 10.1103/PhysRevLett.122.071301.
- Aprile, E., Aalbers, J., Agostini, F., Alfonsi, M., Althueser, L., Amaro, F.D., Anthony, M., Antochi, V.C., Arneodo, F., Baudis, L., Bauermeister, B., Benabderrahmane, M.L., Berger, T., Breur, P.A., Brown, A., Brown, A., Brown, E., Bruenner, S., Bruno, G., Budnik, R., Capelli, C., Cardoso, J.M. R., Cichon, D., Coderre, D., Colijn, A.P., Conrad, J., Cussonneau, J.P., Decowski, M.P., Perio, P.de, Gangi, P.Di, Giovanni, A.Di, Diglio, S., Elykov, A., Eurin, G., Fei, J., Ferella, A.D., Fieguth, A., Fulgione, W., Rosso, A.Gallo, Galloway, M., Gao, F., Garbini, M., Grandi, L., Greene, Z., Hasterok, C., Hogenbirk, E., Howlett, J., Iacovacci, M., Itay, R., Joerg, F., Kazama, S., Kish, A., Koltman, G., Kopec, A., Landsman, H., Lang, R.F., Levinson, L., Lin, Q., Lindemann, S., Lindner, M., Lombardi, F., Lopes, J.A. M., Fune, E.López, Macolino, C., Mahlstedt, J., Manfredini, A., Marignetti, F., Undagoitia, T.Marrodán, Masbou, J., Masson, D., Mastroianni, S., Messina, M., Micheneau, K., Miller, K., Molinario, A., Morå, K., Mosbacher, Y., Murra, M., Naganoma, J., Ni, K., Oberlack, U., Odgers, K., Pelssers, B., Piastra, F., Pienaar, J., Pizzella, V., Plante, G., Podviianiuk, R., Priel, N., Qiu, H., García, D.Ramírez, Reichard, S., Riedel, B., Rizzo, A., Rocchetti, A., Rupp, N., Santos, J.M. F. dos, Sartorelli, G., Šarčević, N., Scheibelhut, M., Schindler, S., Schreiner, J., Schulte, D., Schumann, M., Lavina, L.Scotto, Selvi, M., Shagin, P., Shockley, E., Silva, M., Simgen, H., Therreau, C., Thers, D., Toschi, F., Trinchero, G., Tunnell, C., Upole, N., Vargas, M., Wack, O., Wang, H., Wang, Z., Wei, Y., Weinheimer, C., Wenz, D., Wittweg, C., Wulf, J., Xu, Z., Ye, J., Zhang, Y., Zhu, T., und Zopounidis, J.P. 2019. „Constraining the spin-dependent WIMP-nucleon cross sections with XENON1T.“ Phys. Rev. Lett. 122 (14): 141301.. doi: 10.1103/PhysRevLett.122.141301.
- Aprile, E., Aalbers, J., Agostini, F., Alfonsi, M., Althueser, L., Amaro, F.D., Anthony, M., Antochi, V.C., Arneodo, F., Baudis, L., Bauermeister, B., Benabderrahmane, M.L., Berger, T., Breur, P.A., Brown, A., Brown, A., Brown, E., Bruenner, S., Bruno, G., Budnik, R., Capelli, C., Cardoso, J.M. R., Cichon, D., Coderre, D., Colijn, A.P., Conrad, J., Cussonneau, J.P., Decowski, M.P., Perio, P.de, Gangi, P.Di, Giovanni, A.Di, Diglio, S., Elykov, A., Eurin, G., Fei, J., Ferella, A.D., Fieguth, A., Fulgione, W., Rosso, A.Gallo, Galloway, M., Gao, F., Garbini, M., Grandi, L., Greene, Z., Hasterok, C., Hogenbirk, E., Howlett, J., Iacovacci, M., Itay, R., Joerg, F., Kazama, S., Kaminsky, B., Kish, A., Koltman, G., Kopec, A., Landsman, H., Lang, R.F., Levinson, L., Lin, Q., Lindemann, S., Lindner, M., Lombardi, F., Lopes, J.A. M., Fune, E.López, Macolino, C., Mahlstedt, J., Manfredini, A., Marignetti, F., Undagoitia, T.Marrodán, Masbou, J., Masson, D., Mastroianni, S., Messina, M., Micheneau, K., Miller, K., Molinario, A., Morå, K., Murra, M., Naganoma, J., Ni, K., Oberlack, U., Odgers, K., Pelssers, B., R.Peres, Piastra, F., Pienaar, J., Pizzella, V., Plante, G., Podviianiuk, R., Priel, N., Qiu, H., García, D.Ramírez, Reichard, S., Riedel, B., Rizzo, A., Rocchetti, A., Rupp, N., Santos, J.M. F. dos, Sartorelli, G., Šarčević, N., Scheibelhut, M., Schindler, S., Schreiner, J., Schulte, D., Schumann, M., Lavina, L.Scotto, Selvi, M., Shagin, P., Shockley, E., Silva, M., Simgen, H., Therreau, C., Thers, D., Toschi, F., Trinchero, G., Tunnell, C., Upole, N., Vargas, M., Wack, O., Wang, H., Wang, Z., Wei, Y., Weinheimer, C., Wenz, D., Wittweg, C., Wulf, J., Xu, Z., Ye, J., Zhang, Y., Zhu, T., und Zopounidis, J.P. 2019. „Observation of two-neutrino double electron capture in 124Xe with XENON1T.“ Nature 568 (7753): 532–535. doi: 10.1038/s41586-019-1124-4.
- Wagenpfeil, M, Ziegler, T, Fieguth, A, Schneider, J, Michel, T, und Weinheimer, C. 2019. „Reflectance of VUV-sensitive SiPM surfaces in liquid xenon.“ Nuclear Instruments and Methods in Physics Research Section A 936: 577. doi: 10.1016/j.nima.2018.09.142.
2018
- Erhard, M, Behrens, J, Bauer, S, Beglarian, A, Berendes, R, Drexlin, G, Glück, F, Gumbsheimer, R, Hergenhan, J, Leiber, B, Mertens, S, Osipowicz, A, Plischke, P, Reich, J, Thümmler, T, Wandkowsky, N, Weinheimer, C, und Wüstling, S. 2018. „Technical design and commissioning of the KATRIN large-volume air coil system.“ Journal of Instrumentation 13: P02003.. doi: 10.1088/1748-0221/13/02/P02003.
- Aprile, E, und others. 2018. „Intrinsic backgrounds from Rn and Kr in the XENON100 experiment.“ Eur. Phys. J. C78 (2): 132.. doi: 10.1140/epjc/s10052-018-5565-y.
- Aprile, E, und others. 2018. „Signal Yields of keV Electronic Recoils and Their Discrimination from Nuclear Recoils in Liquid Xenon.“ Phys. Rev. D97 (9): 092007.. doi: 10.1103/PhysRevD.97.092007.
- Steinbrink, NMN, Behrens, JD, Mertens, S, Ranitzsch, PC-, und Weinheimer, C. 2018. „keV-Scale Sterile Neutrino Sensitivity Estimation with Time-Of-Flight Spectroscopy in KATRIN using Self-Consistent Approximate Monte Carlo.“ Eur. Phys. J. C78 (3): 212.. doi: 10.1140/epjc/s10052-018-5656-9.
- Arenz, M, und others. 2018. „First transmission of electrons and ions through the KATRIN beamline.“ JINST 13 (04): P04020.. doi: 10.1088/1748-0221/13/04/P04020.
- Fieguth, A, Hoferichter, M, Klos, P, Menéndez, J, Schwenk, A, und Weinheimer, C. 2018. „Discriminating WIMP-nucleus response functions in present and future XENON-like direct detection experiments.“ Phys. Rev. D97 (10): 103532.. doi: 10.1103/PhysRevD.97.103532.
- Arenz, M, und others. 2018. „Calibration of high voltages at the ppm level by the difference of $^{83\mathrmm}$Kr conversion electron lines at the KATRIN experiment.“ Eur. Phys. J. C78 (5): 368.. doi: 10.1140/epjc/s10052-018-5832-y.
- Brown, E, und others. 2018. „Magnetically-coupled piston pump for high-purity gas applications.“ Eur. Phys. J. C78 (7): 604.. doi: 10.1140/epjc/s10052-018-6062-z.
- Arenz, M, und others. 2018. „Reduction of stored-particle background by a magnetic pulse method at the KATRIN experiment.“ Eur. Phys. J. C78 (9): 778.. doi: 10.1140/epjc/s10052-018-6244-8.
- Letnev, J, und others. 2018. „Technical design and commissioning of a sensor net for fine-meshed measuring of the magnetic field at the KATRIN spectrometer.“ JINST 13 (08): T08010.. doi: 10.1088/1748-0221/13/08/T08010.
- Aprile, E, und others. 2018. „Dark Matter Search Results from a One Ton-Year Exposure of XENON1T.“ Phys. Rev. Lett. 121 (11): 111302.. doi: 10.1103/PhysRevLett.121.111302.
- Arenz, M, und others. 2018. „The KATRIN Superconducting Magnets: Overview and First Performance Results.“ JINST 13 (08): T08005.. doi: 10.1088/1748-0221/13/08/T08005.
- Görhardt, S, und others. 2018. „Impact of a cryogenic baffle system on the suppression of radon-induced background in the KATRIN Pre-Spectrometer.“ JINST 13 (10): T10004.. doi: 10.1088/1748-0221/13/10/T10004.
2017
- Ullmann, H, Andelkovic, Z, Brandau, C, Dax, A, Geithner, W, Geppert, C, Gorges, C, Hammen, M, Hannen, V, Kaufmann, S, König, K, Litvinov, YA, Lochmann, M, Maaß, B, Meisner, J, Murböck, T, Sanchez, R, Schmidt, M, Schmidt, S, Steck, M, Stöhlker, T, Thompson, RC, Trageser, C, Vollbrecht, J, Weinheimer, C, und Nörtershäuser, W. 2017. „High precision hyperfine measurements in Bismuth challenge bound-state strong-field QED.“ Nature Communications 8: 15484.. doi: 10.1038/ncomms15484.
- Rodolfo, Sánchez, Matthias, Lochmann, Raphael, Jöhren, Zoran, Andelkovic, Denis, Anielski, Benjamin, Botermann, Michael, Bussmann, Andreas, Dax, Nadja, Frömmgen, Christopher, Geppert, Michael, Hammen, Volker, Hannen, Thomas, Kühl, Yuri, ALitvinov, Rubén, López-Coto, Thomas, Stöhlker, Richard, CThompson, Jonas, Vollbrecht, Weiqiang, Wen, Christian, Weinheimer, Elisa, Will, und Danyal, Winters and Wilfried Nörtershäuser. 2017. „Laser spectroscopy measurement of the 2s-hyperfine splitting in lithium-like bismuth.“ J. Physics B 50: 085004.. doi: 10.1088/1361-6455/aa63a0.
- Hannen, V, Heese, I, Weinheimer, C, Sejersen, Rijs A, und Valerius, K. 2017. „Deconvolution of the energy loss function of the KATRIN experiment.“ Astroparticle Physics 89: 30–38. doi: 10.1016/j.astropartphys.2017.01.010.
- Aprile E, ..., und Weinheimer C, ... (XENON Collaboration). 2017. „Search for two-neutrino double electron capture of Xe-124 with XENON100.“ Physical Review C 95 (2): 024605. doi: 10.1103/PhysRevC.95.024605.
- Aprile E, ..., und Weinheimer C, ... (XENON Collaboration). 2017. „Search for Electronic Recoil Event Rate Modulation with 4 Years of XENON100 Data.“ Physical Review Letters 118: 101101. doi: 10.1103/PhysRevLett.118.101101.
- al., Adhikari R et. 2017. „A White Paper on keV sterile neutrino Dark Matter.“ Journal of Cosmology and Astroparticle Physics 2017 (1): 025. doi: 10.1088/1475-7516/2017/01/025.
- Collaboration), Aprile E (XENON. 2017. „Results from a Calibration of XENON100 Using a Source of Dissolved Radon-220.“ Phys. Rev. D 95 (7): 072008.. doi: 10.1103/PhysRevD.95.072008.
- Collaboration), Aprile E (XENON. 2017. „Search for magnetic inelastic dark matter with XENON100.“ Journal of Cosmology and Astroparticle Physics 2017 (10): 039.. doi: 10.1088/1475-7516/2017/10/039.
- Collaboration), Aprile E (XENON. 2017. „Search for WIMP Inelastic Scattering off Xenon Nuclei with XENON100.“ Phys. Rev. D 96 (2): 022008.. doi: 10.1103/PhysRevD.96.022008.
- Collaboration), Aprile E (XENON. 2017. „Material radioassay and selection for the XENON1T dark matter experiment.“ Eur. Phys. J. C77 (12): 890.. doi: 10.1140/epjc/s10052-017-5329-0.
- Collaboration), Aprile E (XENON. 2017. „Effective field theory search for high-energy nuclear recoils using the XENON100 dark matter detector.“ Phys. Rev. D 96 (4): 042004.. doi: 10.1103/PhysRevD.96.042004.
- Collaboration), Aprile E (XENON. 2017. „First Dark Matter Search Results from the XENON1T Experiment.“ Phys. Rev. Lett. 119 (18): 181301.. doi: 10.1103/PhysRevLett.119.181301.
- Collaboration), Aprile E (XENON. 2017. „The XENON1T Dark Matter Experiment.“ Eur. Phys. J. C 77 (12): 881.. doi: 10.1140/epjc/s10052-017-5326-3.
- Collaboration), Aprile E (XENON. 2017. „Search for Bosonic Super-WIMP Interactions with the XENON100 Experiment.“ Phys. Rev. D 96 (12): 122002.. doi: 10.1103/PhysRevD.96.122002.
- Behrens, J, Ranitzsch, PC-O, Beck, M, Beglarian, A, Erhard, M, Groh, S, Hannen, V, Kraus, M, Ortjohann, H-W, Rest, O, Schlösser, K, Thümmler, T, Valerius, K, Wierman, K, Wilkerson, JF, Winzen, D, Zacher, M, und Weinheimer, C. 2017. „A pulsed, mono-energetic and angular-selective UV photo-electron source for the commissioning of the KATRIN experiment.“ European Physical Journal C 2017 (77): 410.. doi: 10.1140/epjc/s10052-017-4972-9.
- E, Aprile, ..., C, Weinheimer, Collaboration), ... (XENON, und I, Cristescu. 2017. „Online ^{222}Rn removal by cryogenic distillation in the XENON100 experiment.“ European Physical Journal C 2017 (77): 358.. doi: 10.1140/epjc/s10052-017-4902-x.
- Steinbrink, NM N, Glück, F, Heizmann, F, Kleesiek, M, Valerius, K, Weinheimer, C, und Hannestad, S. 2017. „Statistical sensitivity on right-handed currents in presence of eV scale sterile neutrinos with KATRIN.“ Journal of Cosmology and Astroparticle Physics 2017 (06): 015.. doi: 10.1088/1475-7516/2017/06/015.
- E, Aprile, ..., C, Weinheimer, Collaboration), ... et al. (XENON, und I, Cristescu. 2017. „Removing krypton from xenon by cryogenic distillation to the ppq level.“ European Physical Journal C 77: 275. doi: 10.1140/epjc/s10052-017-4757-1.
2016
- Finlay, P, Breitenfeldt, M, Porobić, T, Wursten, E, Ban, G, Beck, M, Couratin, C, Fabian, X, Fléchard, X, Friedag, P, Glück, F, Herlert, A, Knecht, A, Kozlov, VY, Liénard, E, Soti, G, Tandecki, M, Traykov, E, Van Gorp, S, Weinheimer, Ch, Zákoucký, E, und Severijns, N. 2016. „First high-statistics and high-resolution recoil-ion data from the WITCH retardation spectrometer.“ European Physical Journal A 52: 206. doi: 10.1140/epja/i2016-16206-y.
- al., Aprile E et. 2016. „XENON100 dark matter results from a combination of 477 live days.“ Physical Review D (PRD) 94: 122001.
- al., Aprile E et. 2016. „Low-mass dark matter search using ionization signals in XENON100.“ Physical Review D (PRD) 94: 092001. doi: 10.1103/PhysRevD.94.092001.
- Aalbers, J., Agostini, F., Alfonsi, M., Amaro, F.D., Amsler, C., Aprile, E., Arazi, L., Arneodo, F., Barrow, P., Baudis, L., Benabderrahmane, M.L., Berger, T., Beskers, B., Breskin, A., Breur, P.A., Brown, A., Brown, E., Bruenner, S., Bruno, G., Budnik, R., Bütikofer, L., Calvén, J., Cardoso, J.M.R., Cichon, D., Coderre, D., Colijn, A.P., Conrad, J., Cussonneau, J.P., Decowski, M.P., Diglio, S., Drexlin, G., Duchovni, E., Erdal, E., Eurin, G., Ferella, A., Fieguth, A., Fulgione, W., Rosso, A.Gallo, Gangi, P.Di, Giovanni, A.Di, Galloway, M., Garbini, M., Geis, C., Glueck, F., Grandi, L., Greene, Z., Grignon, C., Hasterok, C., Hannen, V., Hogenbirk, E., Howlett, J., Hilk, D., Hils, C., James, A., Kaminsky, B., Kazama, S., Kilminster, B., Kish, A., Krauss, L.M., Landsman, H., Lang, R.F., Lin, Q., Linde, F.L., Lindemann, S., Lindner, M., Lopes, J.A.M., Undagoitia, T.Marrodán, Masbou, J., Massoli, F.V., Mayani, D., Messina, M., Micheneau, K., Molinario, A., Morå, K.D., Morteau, E., Murra, M., Naganoma, J., Newstead, J.L., Ni, K., Oberlack, U., Pakarha, P., Pelssers, B., Perio, P.de, Persiani, R., Piastra, F., Piro, M.C., Plante, G., Rauch, L., Reichard, S., Rizzo, A., Rupp, N., Santos, J.M.F.Dos, Sartorelli, G., Scheibelhut, M., Schindler, S., Schumann, M., Schreiner, J., Lavina, L.Scotto, Selvi, M., Shagin, P., Silva, M.C., Simgen, H., Sissol, P., Sivers, M.von, Thers, D., Thurn, J., Tiseni, A., Trotta, R., Tunnell, C.D., Valerius, K., Vargas, M.A., Wang, H., Wei, Y., Weinheimer, C., Wester, T., Wulf, J., Zhang, Y., und Zuber, T.Zhu and K. 2016. „DARWIN: towards the ultimate dark matter detector.“ Journal of Cosmology and Astroparticle Physics 2016 (11): 017. doi: 10.1088/1475-7516/2016/11/017.
- Aprile, E., Aalbers, J., Agostini, F., Alfonsi, M., Amaro, F.D., Anthony, M., Arazi, L., Arneodo, F., Balan, C., Barrow, P., Baudis, L., Bauermeister, B., Berger, T., Breur, P., Breskin, A., Brown, A., Brown, E., Bruenner, S., Bruno, G., Budnik, R., Bütikofer, L., Cardoso, J.M. R., Cervantes, M., Cichon, D., Coderre, D., Colijn, A.P., Conrad, J., Contreras, H., Cussonneau, J.P., Decowski, M.P., Perio, P.de, Gangi, P.Di, Giovanni, A.Di, Duchovni, E., Fattori, S., Ferella, A.D., Fieguth, A., Franco, D., Fulgione, W., Galloway, M., Garbini, M., Geis, C., Goetzke, L.W., Greene, Z., Grignon, C., Gross, E., Hampel, W., Hasterok, C., Itay, R., Kaether, F., Kaminsky, B., Kessler, G., Kish, A., Landsman, H., Lang, R.F., Lellouch, D., Levinson, L., Calloch, M.Le, Levy, C., Lindemann, S., Lindner, M., Lopes, J.A. M., Lyashenko, A., Macmullin, S., Manfredini, A., Undagoitia, T.Marrodán, Masbou, J., Massoli, F.V., Mayani, D., Fernandez, A.J. Melgarejo, Meng, Y., Messina, M., Micheneau, K., Miguez, B., Molinario, A., Murra, M., Naganoma, J., Oberlack, U., Orrigo, S.E. A., Pakarha, P., Pelssers, B., Persiani, R., Piastra, F., Pienaar, J., Plante, G., Priel, N., Rauch, L., Reichard, S., Reuter, C., Rizzo, A., Rosendahl, S., Rupp, N., Santos, J.M. F. dos, Sartorelli, G., Scheibelhut, M., Schindler, S., Schreiner, J., Schumann, M., Lavina, L.Scotto, Selvi, M., Shagin, P., Simgen, H., Stein, A., Thers, D., Tiseni, A., Trinchero, G., Tunnell, C., Sivers, M.von, Wall, R., Wang, H., Weber, M., Wei, Y., Weinheimer, C., Wulf, J., und Zhang, Y. 2016. „Physics reach of the XENON1T dark matter experiment.“ Journal of Cosmology and Astroparticle Physics 2016 (04): 027. doi: 10.1088/1475-7516/2016/04/027.
- Arenz, M., Babutzka, M., Bahr, M., Barrett, J.P., Bauer, S., Beck, M., Beglarian, A., Behrens, J., Bergmann, T., Besserer, U., Blümer, J., Bodine, L.I., Bokeloh, K., Bonn, J., Bornschein, B., Bornschein, L., Büsch, S., Burritt, T.H., Chilingaryan, S., Corona, T.J., Viveiros, L.De, Doe, P.J., Dragoun, O., Drexlin, G., Dyba, S., Ebenhöch, S., Eitel, K., Ellinger, E., Enomoto, S., Erhard, M., Eversheim, D., Fedkevych, M., Felden, A., Fischer, S., Formaggio, J.A., Fränkle, F., Furse, D., Ghilea, M., Gil, W., Glück, F., Ureña, A.Gonzalez, Görhardt, S., Groh, S., Grohmann, S., Grössle, R., Gumbsheimer, R., Hackenjos, M., Hannen, V., Harms, F., Haußmann, N., Heizmann, F., Helbing, K., Herz, W., Hickford, S., Hilk, D., Hillen, B., Höhn, T., Holzapfel, B., Hötzel, M., Howe, M.A., Huber, A., Jansen, A., Kernert, N., Kippenbrock, L., Kleesiek, M., Klein, M., Kopmann, A., Kosmider, A., Kovalík, A., Krasch, B., Kraus, M., Krause, H., Krause, i M., Kuckert, L., Kuffner, B., Cascio, L.La, Lebeda, O., Leiber, B., Letnev, J., Lobashev, V.M., Lokhov, A., Malcherek, E., Mark, M., Martin, E.L., Mertens, S., Mirz, S., Monreal, B., Müller, K., Neuberger, M., Neumann, H., Niemes, S., Noe, M., Oblath, N.S., Off, A., Ortjohann, H.-W., Osipowicz, A., Otten, E., Parno, D.S., Plischke, P., Poon, A.W.P., Prall, M., Priester, F., Ranitzsch, P.C.-O., Reich, J., Rest, O., Robertson, R.G.H., Röllig, M., Rosendahl, S., Rupp, S., Ryšavý, M., Schlösser, K., Schlösser, M., Schönung, K., Schrank, M., Schwarz, J., Seiler, W., Seitz-Moskaliuk, H., Sentkerestiová, J., Skasyrskaya, A., Slezák, M., Špalek, A., Steidl, M., Steinbrink, N., Sturm, M., Suesser, M., Telle, H.H., Thümmler, T., Titov, N., Tkachev, I., Trost, N., Unru, A., Valerius, K., Vénos, D., Vianden, R., Vöcking, S., Wall, B.L., Wandkowsky, N., Weber, M., Weinheimer, C., Weiss, C., Welte, S., Wendel, J., Wierman, K.L., Wilkerson, J.F., Winzen, D., Wolf, J., Wüstling, S., Zacher, M., und Zboril, S.Zadoroghny and M. 2016. „Commissioning of the vacuum system of the KATRIN Main Spectrometer.“ Journal of Instrumentation 11: P04011. doi: 10.1088/1748-0221/11/04/P04011.
2015
- Vogel, M, Andelkovic, Z, Birkl, G, Ebrahimi, S, Hannen, V, Lindenfels, Dvon, Martin, A, Murböck, T, Nörtershäuser, W, Quint, W, Schmidt, S, Segal, DM, Thompson, RC, Vollbrecht, J, und Wiesel, ChWeinheimer and M. 2015. „Penning-trap experiments for spectroscopy of highly-charged ions at HITRAP.“ Physica Scripta T166: 014066.. doi: 10.1088/0031-8949/2015/T166/014066.
- Kotulla, M.Trnka D., Muehlich P., Anton G., Bacelar J. C. S., Bartholomy O., Bayadilov D., Beloglazov Y. A., Bogendoerfer R., Castelijns R., Crede V., Dutz H., Ehmanns A., Elsner D., Ewald R., Fabry I., Fuchs M., Essig K., Funke Ch., Gothe R., Gregor R., Gridnev A. B., Gutz E., Hoeffgen S., Hoffmeister P., Horn I., Hoessl J., Jaegle I., Junkersfeld J., Kalinowsky H., Klein Frank, Klein Fritz, Klempt E., Konrad M., Kopf B., Krusche B., Langheinrich J., Loehner H., Lopatin I. V., Lotz J., Lugert S., Menze D., Messchendorp J. G., Mertens T., Metag V., Mosel U., Nanova M., Novotny R., Ostrick M., Pant L. M., van Pee H., Pfeiffer M., Roy A., Radkov A., Schadmand S., Schmidt Ch., Schmieden H., Schoch B., Shende S., Suft G., Sumachev V. V., Szczepanek T., Suele A., Thoma U., Varma R., Walther D., und Weinheimer Ch., Wendel Ch. 2015. „Erratum: Modification of the omega-Meson Lifetime in Nuclear Matter [Phys. Rev. Lett. 100, 192302 (2008)].“ Physicsal Review Letters 114: 199903.. doi: 10.1103/PhysRevLett.114.199903.
- Aprile, E., Aalbers, J., Agostini, F., Alfonsi, M., Anthony, M., Arazi, L., Arisaka, K., Arneodo, F., Balan, C., Barrow, P., Baudis, L., Bauermeister, B., Breur, P., Brown, A., Brown, E., Bruenner, S., Bruno, G., Budnik, R., Bütikofer, L., Cardoso, J., Cervantes, M., Coderre, D., Colijn, A., Contreras, H., Cussonneau, J., Decowski, M., De Perio, P., Di Giovanni, A., Duchovni, E., Fattori, S., Ferella, A., Fieguth, A., Fulgione, W., Gao, F., Garbini, M., Geis, C., Goetzke, L., Grignon, C., Gross, E., Hampel, W., Hasterok, C., Itay, R., Kaether, F., Kaminsky, B., Kessler, G., Kish, A., Landsman, H., Lang, R., Le Calloch, M., Lellouch, D., Levinson, L., Levy, C., Lindemann, S., Lindner, M., Lopes, J., Lyashenko, A., Macmullin, S., Marrodán, Undagoitia T., Masbou, J., Massoli, F., Mayani, D., Melgarejo, Fernandez A., Meng, Y., Messina, M., Micheneau, K., Miguez, B., Molinario, A., Murra, M., Naganoma, J., Ni, K., Oberlack, U., Orrigo, S., Pakarha, P., Persiani, R., Piastra, F., Pienaar, J., Plante, G., Priel, N., Rauch, L., Reichard, S., Reuter, C., Rizzo, A., Rosendahl, S., Dos, Santos J., Sartorelli, G., Schindler, S., Schreiner, J., Schumann, M., Scotto, Lavina L., Selvi, M., Shagin, P., Simgen, H., Teymourian, A., Thers, D., Tiseni, A., Trinchero, G., Tunnell, C., Wall, R., Wang, H., Weber, M., Weinheimer, C., und Zhang, Y. 2015. „Exclusion of Leptophilic Dark Matter Models using XENON100 Electronic Recoil Data.“ Science 349 (6250): 851–854. doi: 10.1126/science.aab2069.
- Drexlin, G, Lindner, M, und Weinheimer, C. 2015. „Wandelbare Geisterteilchen.“ Physik Journal 14 (12): 24–28.
- Porobić, T., Beck, M., Breitenfeldt, M., Couratin, C., Finlay, P., Knecht, A., Fabian, X., Friedag, P., Fléchard, X., Liénard, E., Ban, G., Zákoucký, D., Soti, G., Van Gorp, S., Weinheimer, C., Wursten, E., und Severijns, N. 2015. „Space-charge effects in Penning ion traps.“ Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 785 (null): 153–162. doi: 10.1016/j.nima.2015.02.057.
- Mertens, S., Lasserre, T., Groh, S., Drexlin, G., Glück, F., Huber, A., Poon, A., Steidl, M., Steinbrink, N., und Weinheimer, C. 2015. „Sensitivity of next-generation tritium beta-decay experiments for keV-scale sterile neutrinos.“ Journal of Cosmology and Astroparticle Physics 2015 (2): 020. doi: 10.1088/1475-7516/2015/02/020.
- Aprile, E., Aalbers, J., Agostini, F., Alfonsi, M., Anthony, M., Arazi, L., Arisaka, K., Arneodo, F., Balan, C., Barrow, P., Baudis, L., Bauermeister, B., Breur, P., Brown, A., Brown, E., Bruenner, S., Bruno, G., Budnik, R., Bütikofer, L., Cardoso, J., Cervantes, M., Coderre, D., Colijn, A., Contreras, H., Cussonneau, J., Decowski, M., De Perio, P., Di Giovanni, A., Duchovni, E., Fattori, S., Ferella, A., Fieguth, A., Fulgione, W., Gao, F., Garbini, M., Geis, C., Goetzke, L., Grignon, C., Gross, E., Hampel, W., Hasterok, C., Itay, R., Kaether, F., Kaminsky, B., Kessler, G., Kish, A., Landsman, H., Lang, R., Le Calloch, M., Lellouch, D., Levinson, L., Levy, C., Lindemann, S., Lindner, M., Lopes, J., Lyashenko, A., Macmullin, S., Marrodán, Undagoitia T., Masbou, J., Massoli, F., Mayani, D., Melgarejo, Fernandez A., Meng, Y., Messina, M., Micheneau, K., Miguez, B., Molinario, A., Murra, M., Naganoma, J., Ni, K., Oberlack, U., Orrigo, S., Pakarha, P., Persiani, R., Piastra, F., Pienaar, J., Plante, G., Priel, N., Rauch, L., Reichard, S., Reuter, C., Rizzo, A., Rosendahl, S., Dos, Santos J., Sartorelli, G., Schindler, S., Schreiner, J., Schumann, M., Scotto, Lavina L., Selvi, M., Shagin, P., Simgen, H., Teymourian, A., Thers, D., Tiseni, A., Trinchero, G., Tunnell, C., Wall, R., Wang, H., Weber, M., Weinheimer, C., und Zhang, Y. 2015. „Search for Event Rate Modulation in XENON100 Electronic Recoil Data.“ Physical Review Letters 115 (9): 091302. doi: 10.1103/PhysRevLett.115.091302.
- XENON, Collaboration, Aprile, E., Agostini, F., Alfonsi, M., Arazi, L., Arisaka, K., Arneodo, F., Auger, M., Balan, C., Barrow, P., Baudis, L., Bauermeister, B., Behrens, A., Beltrame, P., Brown, A., Brown, E., Bruenner, S., Bruno, G., Budnik, R., Bütikofer, L., Cardoso, J., Coderre, D., Colijn, A., Contreras, H., Cussonneau, J., Decowski, M., Giovanni, A., Duchovni, E., Fattori, S., Ferella, A., Fieguth, A., Fulgione, W., Galloway, M., Garbini, M., Geis, C., Goetzke, L., Grignon, C., Gross, E., Hampel, W., Itay, R., Kaether, F., Kessler, G., Kish, A., Landsman, H., Lang, R., Calloch, M., Lellouch, D., Levinson, L., Levy, C., Lindemann, S., Lindner, M., Lopes, J., Lyashenko, A., Macmullin, S., Undagoitia, T., Masbou, J., Massoli, F., Mayani, D., Fernandez, A., Meng, Y., Messina, M., Miguez, B., Molinario, A., Murra, M., Naganoma, J., Oberlack, U., Orrigo, S., Pakarha, P., Pantic, E., Persiani, R., Piastra, F., Pienaar, J., Plante, G., Priel, N., Rauch, L., Reichard, S., Reuter, C., Rizzo, A., Rosendahl, S., dos, Santos J., Sartorelli, G., Schindler, S., Schreiner, J., Schumann, M., Lavina, L., Selvi, M., Shagin, P., Simgen, H., Teymourian, A., Thers, D., Tiseni, A., Trinchero, G., Tunnell, C., Vitells, O., Wall, R., Wang, H., Weber, M., Weinheimer, C., und Laubenstein, M. 2015. „Lowering the radioactivity of the photomultiplier tubes for the XENON1T dark matter experiment.“ European Physical Journal C: Particles and Fields 75 (11): 1–10. doi: 10.1140/epjc/s10052-015-3657-5.
- Rosendahl, S., Brown, E., Cristescu, I., Fieguth, A., Huhmann, C., Lebeda, O., Murra, M., und Weinheimer, C. 2015. „Determination of the separation efficiencies of a single-stage cryogenic distillation setup to remove krypton out of xenon by using a 83mKr tracer method.“ Review of Scientific Instruments 86 (11): 115104. doi: 10.1063/1.4934978.
- Andelkovic, Z., Birkl, G., Fedotova, S., Hannen, V., Herfurth, F., König, K., Kotovskiy, N., Maaß, B., Vollbrecht, J., Murböck, T., Neidherr, D., Nörtershäuser, W., Schmidt, S., Vogel, M., Vorobjev, G., und Weinheimer, C. 2015. „Status of deceleration and laser spectroscopy of highly charged ions at HITRAP.“ Hyperfine Interactions 235 (null): 37–44. doi: 10.1007/s10751-015-1199-8.
- Vollbrecht, J., Andelkovic, Z., Dax, A., Geithner, W., Geppert, C., Gorges, C., Hammen, M., Hannen, V., Kaufmann, S., König, K., Litvinov, Y., Lochmann, M., Maass, B., Meisner, J., Murboeck, T., Nörtershäuser, W., Sánchez, R., Schmidt, S., Schmidt, M., Steck, M., Stöhlker, T., Thompson, R., Ullmann, J., und Weinheimer, C. 2015. „Laser spectroscopy of the ground-state hyperfine structure in H-like and Li-like bismuth.“ Beitrag präsentiert auf der 17th International Conference on the Physics of Highly Charged Ions, San Carlos de Bariloche, Argentina IOP Publishing. doi: 10.1088/1742-6596/583/1/012002.
- Ullmann, J., Andelkovic, Z., Dax, A., Geithner, W., Geppert, C., Gorges, C., Hammen, M., Hannen, V., Kaufmann, S., König, K., Litvinov, Y., Lochmann, M., Maass, B., Meisner, J., Murböck, T., Sánchez, R., Schmidt, M., Schmidt, S., Steck, M., Stöhlker, T., Thompson, R., Vollbrecht, J., Weinheimer, C., und Nörtersh'user, W. 2015. „An improved value for the hyperfine splitting of hydrogen-like <sup>209</sup>Bi<sup>82+</sup>.“ Journal of Physics B: Atomic, Molecular and Optical Physics 48 (14). doi: 10.1088/0953-4075/48/14/144022.
2014
- Aprile, E, Agostini, F, Alfonsi, M, Arisaka, K, Arneodo, F, Auger, M, Balan, C, Barrow, P, Baudis, L, Bauermeister, B, Behrens, A, Beltrame, P, Bokeloh, K, Brown, A, Brown, E, Bruenner, S, Bruno, G, Budnik, R, Cardoso, JMR, Colijn, AP, Contreras, H, JCussonneau, JP, Decowski, MP, Duchovni, E, Fattori, S, Ferella, AD, Fulgione, W, Garbini, M, Geis, C, Goetzke, LW, Grignon, C, Gross, E, Hampel, W, Itay, R, Kaether, F, Kessler, G, Kish, A, Landsman, H, Lang, RF, Le Calloch, M, Lellouch, D, Levinson, L, Levy, C, Lindemann, S, Lindner, M, Lopes, JAM, Lung, K, Lyashenko, A, MacMullin, S, Marrodán, Undagoitia T, Masbou, J, Massoli, FV, Mayani, Paras D, Melgarejo, Fernandez AJ, Meng, Y, Messina, M, Miguez, B, Molinario, A, Morano, G, Murra, M, Naganoma, J, Oberlack, U, Orrigo, SEA, Pantic, E, Persiani, R, Piastra, F, Pienaar, J, Plante, G, Priel, N, Reichard, S, Reuter, C, Rizzo, A, Rosendahl, S, dos, Santos J MF, Sartorelli, G, Schindler, S, Schreiner, J, Schumann, M, Scotto, Lavina L, Selvi, M, Shagin, P, Simgen, H, Teymourian, A, Thers, D, Tiseni, A, Trinchero, G, Vitells, O, Wang, H, Weber, M, und and, Weinheimer C. 2014. „Conceptual design and simulation of a water Cherenkov muon veto for the XENON1T experiment.“ Journal of Instrumentation 9 (11): P11009. doi: 10.1088/1748-0221/9/11/P11006.
- Beck, M, Bokeloh, K, Hein, H, Bauer, S, Baumeister, H, Bonn, J, Ortjohann, HW, Ostrick, B, Rosendahl, S, Streubel, S, Valerius, K, Zbořil, M, und Weinheimer, C. 2014. „An angular-selective electron source for the KATRIN experiment.“ Journal of Instrumentation 9 (11): P11020. doi: 10.1088/1748-0221/9/11/P11020.
- Rosendahl, S, Bokeloh, K, Brown, E, Cristescu, I, Fieguth, A, Huhmann, C, Lebeda, O, Lévy, CP, Murra, M, Schneider, S, Venos, D, und Weinheimer, C. 2014. „A novel 83mKr tracer method for characterizing xenon gas and cryogenic distillation systems.“ Journal of Instrumentation 9 (10): P10010.. doi: 10.1088/1748-0221/9/10/P10010.
- Aprile, E, Agostini, F, Alfonsi, M, Arisaka, K, Arneodo, F, Auger, M, Balan, C, Barrow, P, Baudis, L, Bauermeister, B, Behrens, A, Beltrame, P, Bokeloh, K, Brown, A, Brown, E, Bruenner, S, Bruno, G, Budnik, R, Cardos, JMR, AColijn, AP, Contreras, H, Cussonneau, JP, Decowski, MP, Duchovni, E, Fattori, S, Ferella, AD, Fulgione, W, Gao, F, Garbini, M, Geis, C, Goetzke, LW, Grignon, C, Gross, E, Hampel, W, Itay, R, Kaether, F, Kessler, G, Kish, A, Landsman, H, Lang, RF, Le Calloch, M, Lellouch, D, Levy, C, Lindemann, S, Lindner, M, Lopes, JAM, Lung, K, Lyashenko, A, MacMullin, S, Marrodán, Undagoitia T, Masbou, J, Massoli, FV, Mayani, Paras D, Melgarejo, Fernandez AJ, Meng, Y, Messina, M, Miguez, B, Molinario, A, Murra, M, Naganoma, J, Ni, K, Oberlack, U, Orrigo, SEA, Pantic, E, Persiani, R, Piastra, F, Pienaar, J, Plante, G, Priel, N, Reichard, S, Reuter, C, Rizzo, A, Rosendahl, S, dos, Santos J MF, Sartorelli, G, Schindler, S, Schreiner, J, Schumann, M, Scotto, Lavina L, Selvi, M, Shagin, P, Simgen, H, Teymourian, A, Thers, D, Tiseni, A, Trinchero, G, Vitells, O, Wang, H, Weber, M, und and, Weinheimer C. 2014. „First axion results from the XENON100 experiment.“ Physical Review D (PRD) 90 (6): 062009. doi: 10.1103/PhysRevD.90.062009.
- Erhard M, Bauer S, Beglarian A, Bergmann T, Bonn J, Drexlin G, Goullon J, Groh S, Glück F, Kleesiek M, Haußmann N, Höhn T, Johnston K, Kraus M, Reich JC, RestO, Schlösser K, Schupp M, Ślȩzak M, Thümmler T, Vénos D, Weinheimer C, und Wüstling S, Zbořil M. 2014. „High-voltage monitoring with a solenoid retarding spectrometer at the KATRIN experiment.“ Journal of Instrumentation 9 (6): P06022. doi: 10.1088/1748-0221/9/06/P06022.
- Fränkle, FM, Glück, F, Valerius, K, Bokeloh, K, Beglarian, A, Bonn, J, Bornschein, L, Drexlin, G, Habermehl, F, Leber, ML, Osipowicz, A, Otten, EW, Steidl, M, Thümmler, T, Weinheimer, C, Wilkerson, JF, Wolf, J, und Zadorozhny, SV. 2014. „Penning discharge in the KATRIN pre-spectrometer.“ Journal of Instrumentation 9: P07028. doi: 10.1088/1748-0221/9/07/P07028.
- Aprile, E, Alfonsi, M, Arisaka, K, Arneodo, F, Balan, C, Baudis, L, Behrens, A, Beltrame, P, Bokeloh, K, Brown, E, Bruno, G, Budnik, R, Cardoso, JM R, Chen, WT, Choi, B, Cline, DB, Contreras, H, Cussonneau, JP, Decowski, MP, Duchovni, E, Fattori, S, Ferella, AD, Fulgione, W, Gao, F, Garbini, M, Giboni, KL, Goetzke, LW, Grignon, C, Gross, E, Hampel, W, Kish, A, Lamblin, J, Landsman, H, Lang, RF, Le Calloch, M, Levy, C, Lim, KE, Lin, Q, Lindemann, S, Lindner, M, Lopes, JA M, Lung, K, Marrodan, Undagoitia T, Massoli, FV, Mei, Y, Melgarejo, Fernandez A J, Meng, Y, Molinario, A, Nativ, E, Ni, K, Oberlack, U, Orrigo, SE A, Pantic, E, Persiani, R, Plante, G, Priel, N, Rizzo, A, Rosendahl, S, dos, Santos J M F, Sartorelli, G, Schreiner, J, Schumann, M, Scotto, Lavina L, Scofell, PR, Selvi, M, Shagin, P, Simgen, H, Teymourian, A, Thers, D, Vitells, O, Wang, H, Weber, M, und Weinheimer, C. 2014. „Analysis of the XENON100 dark matter search data.“ Astroparticle Physics 54: 11–24. doi: 10.1016/j.astropartphys.2013.10.002.
- Aprile, E, Alfonsi, M, Arisaka, K, Arneodo, F, Balan, C, Baudis, L, Bauermeister, B, Behrens, A, Beltrame, P, Bokeloh, K, Brown, A, Brown, E, Bruenner, S, Bruno, G, Budnik, R, Cardoso, JM R, Chen, WT, Choi, B, Colijn, AP, Contreras, H, Cussonneau, JP, Decowski, MP, Duchovni, E, Fattori, S, Ferella, AD, Fulgione, W, Gao, F, Garbini, M, Ghag, C, Giboni, KL, Goetzke, LW, Grignon, C, Gross, E, Hampel, W, Itay, R, Kaether, F, Kessler, G, Kish, A, Lamblin, J, Landsman, H, Lang, RF, Le Calloch, M, Levy, C, Lim, KE, Lin, Q, Lindemann, S, Lindner, M, Lopes, JA M, Lung, K, Marrodan, Undagoitia T, Massoli, FV, Melgarejo, Fernandez A J, Meng, Y, Messina, M, Molinario, A, Naganoma, J, Ni, K, Oberlack, U, Orrigo, SE A, Pantic, E, Persiani, R, Piastra, F, Plante, G, Priel, N, Rizzo, A, Rosendahl, S, dos, Santos J M F, Sartorelli, G, Schreiner, J, Schumann, M, Scotto, Lavina L, Selvi, M, Shagin, P, Simgen, H, Teymourian, A, Thers, D, Vitells, O, Wang, H, Weber, M, und Weinheimer, C. 2014. „Observation and applications of single-electron charge signals in the XENON100 experiment.“ Journal of Physics G 41: 035201. doi: 10.1088/0954-3899/41/3/035201.
- Van Gorp, S, Breitenfeldt, M, Tandecki, M, Beck, M, Finlay, P, Friedag, P, Glück, F, Herlert, A, Kozlov, V, Porobic, T, Soti, G, Traykov, E, Wauters, F, Weinheimer, Ch, Zakoucky, D, und and, Severijns N. 2014. „First beta neutrino correlation measurement from the recoil-energy spectrum of Penning trapped 35Ar ions.“ Physical Review C 90: 025502. doi: 10.1103/PhysRevC.90.025502.
- Lochmann, M, Jöhren, R, Geppert, C, Andelkovic, Z, Anielski, D, Botermann, B, Bussmann, M, Dax, A, Frömmgen, N, Hammen, M, Hannen, V, Kühl, T, Litvinov, YA, Lopez-Coto, R, Stöhlker, T, Thompson, RC, Vollbrecht, J, Volotka, A, Weinheimer, C, Wen, W, Will, E, Winters, D, Sanchez, R, und and, Nörtershäuser W. 2014. „Observation of the hyperfine transition in lithium-like bismuth Bi 209 80+: Towards a test of QED in strong magnetic fields.“ Physical Review A 90 (3): 030501. doi: 10.1103/PhysRevA.90.030501.
- Weinheimer, C. 2014. „Direct measurements of neutrino mass.“ Il Nuovo cimento della Società italiana di fisica C 37 (3): 94. doi: 10.1393/ncc/i2014-11768-4.
- Rosendahl, S., Brown, E., Cristescu, I., Fieguth, A., Huhmann, C., Murra, M., und Weinheimer, C. 2014. „A cryogenic distillation column for the XENON1T experiment.“ Journal of Physics: Conference Series 564 (1): 012006. doi: 10.1088/1742-6596/564/1/012006.
2013
- Nörtershäuser, W, Lochmann, M, Jöhren, R, Geppert, C, Andelkovic, Z, Anielski, D, Botermann, B, Bussmann, M, Dax, A, Frömmgen, N, Hammen, M, Hannen, V, Kühl, T, Litvinov, YA, Volbrecht, J, Stöhlker, T, Thompson, RC, Weinheimer, C, Wen, W, Will, E, und Winters, Dand Sanchez R M. 2013. „First observation of the ground-state hyperfine transition in $^{209}$Bi$^{80+}$.“ Physica Scripta T156: 014016. doi: 10.1088/0031-8949/2013/T156/014016.
- Bauer, S, Grees, B, Spitzer, D, Beck, M, Bottesch, R, Ortjohann, H-W, Ostrick, B, Schäfer, T, Telle, HH, Wegmann, A, Zboril, M, und and, Weinheimer C. 2013. „Ellipsometry with polarisation analysis at cryogenic temperatures inside a vacuum chamber.“ Review of Scientific Instruments 84: 123103.. doi: 10.1063/1.4838555.
- Steinbrink, Nicholas, Hannen, Volker, Martin, Eric L, Hamish, Robertson R G, und Christian, Zacher Michael and Weinheimer. 2013. „Neutrino mass sensitivity by MAC-E-Filter based time-of-flight spectroscopy with the example of KATRIN.“ New Journal of Physics 15: 113020.. doi: 10.1088/1367-2630/15/11/113020.
- K, Weinheimer C and Zuber. 2013. „Neutrino Masses.“ Annalen der Physik 525 (8-9): 565–575. doi: 10.1002/andp.201300063.
- Hannen, V, Anielski, D, Geppert, C, Jöhren, R, Kühl, T, Lochmann, M, Lopez-Coto, R, Nörtershäuser, W, Ortjohann, H-W, Sanchez, R, Vollbrecht, J, und Weinheimer, Cand Winters D F A. 2013. „Detection system for forward emitted photons at the Experimental Storage Ring at GSI.“ Journal of Instrumentation 2013 (8): P09018.. doi: 10.1088/1748-0221/8/09/P09018.
- Bauer, S, Berendes, R, Hochschulz, F, Ortjohann, H-W, Rosendahl, S, Thümmler, T, und Schmidt, Mand Weinheimer C. 2013. „Next generation KATRIN high precision voltage divider for voltages up to 65kV.“ Journal of Instrumentation 8: P10026.. doi: 10.1088/1748-0221/8/10/P10026.
- Aprile, E, Alfonsi, M, Arisaka, K, Arneodo, F, Balan, C, Baudis, L, Bauermeister, B, Behrens, A, Beltrame, P, Bokeloh, K, Brown, A, Brown, E, Bruenner, S, Bruno, G, Budnik, R, Cardoso, JM R, Chen, WT, Choi, B, Colijn, AP, Contreras, H, Cussonneau, JP, Decowski, MP, Duchovni, E, Fattori, S, Ferella, AD, Fulgione, W, Gao, F, Garbini, M, Geis, C, Ghag, C, Giboni, KL, Goetzke, LW, Grignon, C, Gross, E, Hampel, W, Kaether, F, Kish, A, Lamblin, J, Landsman, H, Lang, RF, Le Calloch, M, Lellouch, D, Levy, C, Lim, KE, Lin, Q, Lindemann, S, Lindner, M, Lopes, JA M, Lung, K, Marrodan, Undagoitia T, Massoli, FV, Melgarejo, Fernandez A J, Meng, Y, Messina, M, Molinario, A, Ni, K, Oberlack, U, Orrigo, SE A, Pantic, E, Persiani, R, Plante, G, Priel, N, Rizzo, A, Rosendahl, S, dos, Santos J M F, Sartorelli, G, Schreiner, J, Schumann, M, Scotto, Lavina L, Scovell, PR, Selvi, M, Shagin, P, Simgen, H, Teymourian, A, Thers, D, Vitells, O, Wang, H, Weber, M, Weinheimer, C, Schuhmacher, H, und Wiegel, B. 2013. „Response of the XENON100 Dark Matter Detector to Nuclear Recoils.“ Physical Review D (PRD) 88: 012006.. doi: 10.1103/PhysRevD.88.012006.
- Aprile, E, Alfonsi, M, Arisaka, K, Arneodo, F, Balan, C, Baudis, L, Bauermeister, B, Behrens, A, Beltrame, P, Bokeloh, K, Brown, A, Brown, E, Bruno, G, Budnik, R, Cardoso, JM R, Chen, WT, Choi, B, Colijn, AP, Contreras, H, Cussonneau, JP, Decowski, MP, Duchovni, E, Fattori, S, Ferella, AD, Fulgione, W, Gao, F, Garbini, M, Ghag, C, Giboni, KL, Goetzke, LW, Grignon, C, Gross, E, Hampel, W, Kaether, F, Kish, A, Lamblin, J, Landsman, H, Lang, RF, Le Calloch, M, Lellouch, D, Levy, C, Lim, KE, Lin, Q, Lindemann, S, Lindner, M, Lopes, JA M, Lung, K, Marrodan, Undagoitia T, Massoli, FV, Melgarejo, Fernandez A J, Meng, Y, Messina, M, Molinario, A, Ni, K, Oberlack, U, Orrigo, SE A, Pantic, E, Persiani, R, Plante, G, Priel, N, Rizzo, A, Rosendahl, S, dos, Santos J M F, Sartorelli, G, Schreiner, J, Schumann, M, Scotto, Lavina L, Scovell, PR, Selvi, M, Shagin, P, Simgen, H, Teymourian, A, Thers, D, Vitells, O, Wang, H, und Weber, Mand Weinheimer C. 2013. „The neutron background of the XENON100 dark matter search experiment.“ Journal of Physics G 40: 115201.. doi: 10.1088/0954-3899/40/11/115201.
- Aprile, E, Alfonsi, M, Arisaka, K, Arneodo, F, Balan, C, Baudis, L, Bauermeister, B, Behrens, A, Beltrame, P, Bokeloh, K, Brown, A, Brown, E, Bruno, G, Budnik, R, Cardoso, JM R, Chen, WT, Choi, B, Colijn, AP, Contreras, H, Cussonneau, JP, Decowski, MP, Duchovni, E, Fattori, S, Ferella, AD, Fulgione, W, Gao, F, Garbini, M, Ghag, C, Giboni, KL, Goetzke, LW, Grignon, C, Gross, E, Hampel, W, Kaether, F, Kish, A, Lamblin, J, Landsman, H, Lang, RF, Le Calloch, M, Lellouch, D, Levy, C, Lim, KE, Lin, Q, Lindemann, S, Lindner, M, Lopes, JA M, Lung, K, Marrodan, Undagoitia T, Massoli, FV, Melgarejo, Fernandez A J, Meng, Y, Messina, M, Molinario, A, Ni, K, Oberlack, U, Orrigo, SE A, Pantic, E, Persiani, R, Plante, G, Priel, N, Rizzo, A, Rosendahl, S, dos, Santos J M F, Sartorelli, G, Schreiner, J, Schumann, M, Scotto, Lavina L, Scovell, PR, Selvi, M, Shagin, P, Simgen, H, Teymourian, A, Thers, D, Vitells, O, Wang, H, Weber, M, und Weinheimer, C. 2013. „Limits on spin-dependent WIMP-nucleon cross sections from 225 live days of XENON100 data.“ Physical Review Letters 111: 021301.. doi: 10.1103/PhysRevLett.111.021301.
- Wen, W.Q., Lochmann, M., Ma, X., Bussmann, M., Winters, D.F.A., Nortershauser, W., Botermann, B., Geppert, C., Frommgen, N., Hammen, M., Hannen, V., Johren, R., Kuhl, T., Litvinov, Y.A., Sanchez, R., Stohlker, T., Vollbrecht, J., Weinheimer, C., Dimopoulou, C., Nolden, F., und Steck, M. 2013. „Optical measurement of the longitudinal ion distribution of bunched ion beams in the ESR.“ Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 711: 90–95. doi: 10.1016/j.nima.2013.01.058.
- Zbořil, M, Bauer, S, Beck, M, Bonn, J, Dragoun, O, Jakůbek, J, Johnston, K, Kovalík, A, Otten, EW, Schlösser, K, Slezák, M, Špalek, A, Thümmler, T, Vénos, D, und Žemličk, Dand Weinheimer C. 2013. „Ultra-stable implanted 83Rb/83mKr electron sources for the energy scale monitoring in the KATRIN experiment.“ Journal of Instrumentation 8: P03009. doi: 10.1088/1748-0221/8/03/P03009.
- Kraus, C, Singer, A, und Valerius, Kand Weinheimer C. 2013. „Limit on sterile neutrino contribution from the Mainz Neutrino Mass Experiment.“ The European Physical Journal C 73: 2323.
- Brown, E, Rosendahl, S, Huhmann, C, und Weinheimer, Cand Kettling H. 2013. „In situ measurements of krypton in xenon gas with a quadrupole mass spectrometer following a cold-trap at a temporarily reduced pumping speed.“ Journal of Instrumentation 8: O92911. doi: 10.1088/1748-0221/8/02/P02011.
- Weinheimer, C. 2013. „Direct neutrino mass measurements.“ Hyperfine Interactions 215: 85–93. doi: 10.1007/s10751-013-0808-7.
- Drexlin, G, Hannen, V, Mertens, S, und Weinheimer, C. 2013. „Current Direct Neutrino Mass Experiments.“ Advances in High Energy Physics 2013: 293986.. doi: 10.1155/2013/293986.
2012
- Prall, M, Renschler, P, Glück, F, Beglarian, A, Bichsel, H, Bornschein, L, Chaoui, Z, Drexlin, G, Fränkle, F, Görhardt, S, Mertens, S, Steidl, M, Thümmler, Th, Wüstling, S, Weinheimer, C, und Zadorozhny, S. 2012. „The KATRIN pre-spectrometer at reduced filter energy.“ New Journal of Physics 14: 073054. doi: 10.1088/1367-2630/14/7/073054.
- Aprile, E, Beck, M, Bokeloh, K, Budnik, R, Choi, B, Contreras, HA, Giboni, K-L, Goetzke, LW, Lang, RF, Lim, KE, Melgarejo, Fernandez AJ, Plante, G, Rizzo, A, Shagin, P, und Weinheimer, C. 2012. „Measurement of the quantum efficiency of Hamamatsu R8520 photomultipliers at liquid xenon temperature.“ Journal of Instrumentation 7: P10005. doi: 10.1088/1748-0221/7/10/P10005.
- Aprile, E, Alfonsi, M, Arisaka, K, Arneodo, F, Balan, C, Baudis, L, Bauermeister, B, Behrens, A, Beltrame, P, Bokeloh, K, Brown, E, Bruno, G, Budnik, R, Cardoso, JMR, Chen, W-T, Choi, B, Cline, D, Colijn, AP, Contreras, H, Cussonneau, JP, Decowski, MP, Duchovni, E, Fattori, S, Ferella, AD, Fulgione, W, Gao, F, Garbini, M, Ghag, C, Giboni, K-L, Goetzke, LW, Grignon, C, Gross, E, Hampel, W, Kaether, F, Kish, A, Lamblin, J, Landsman, H, Lang, RF, Le Calloch, M, Levy, C, Lim, KE, Lin, Q, Lindemann, S, Lindner, M, Lopes, JAM, Lung, K, Marrodán, Undagoitia T, Massoli, FV, Melgarejo, Fernandez AJ, Meng, Y, Molinario, A, Nativ, E, Ni, K, Oberlack, U, Orrigo, SEA, Pantic, E, Persiani, R, Plante, G, Priel, N, Rizzo, A, Rosendahl, S, Dos, Santos J MF, Sartorelli, G, Schreiner, J, Schumann, M, Scotto, Lavina L, Scovell, PR, Selvi, M, Shagin, P, Simgen, H, Teymourian, A, Thers, D, Vitells, O, Wang, H, Weber, M, und Weinheimer, C. 2012. „Dark matter results from 225 live days of XENON100 data.“ Physical Review Letters 109 (18): 181301. doi: 10.1103/PhysRevLett.109.181301.
- Aprile, E, Alfonsi, M, Arisaka, K, Arneodo, F, Balan, C, Baudis, L, Behrens, A, Beltrame, P, Bokeloh, K, Brown, E, Bruno, GM, Budnik, R, Le Calloch, M, Cardoso, JM, Chen, W-T, Choi, B, Contreras, H, Cussonneau, J-P, Decowski, MP, Duchovni, E, Fattori, S, Ferella, AD, Fulgione, W, Gao, F, Garbini, M, Giboni, K-L, Goetzke, L, Grignon, C, Gross, E, Hampel, W, McKinsey, DN, Kish, A, Lamblin, J, Lang, RF, Levy, C, Lim, KE, Lin, Q, Lindemann, S, Lindner, M, Lopes, JA M, Lung, K, A., Manzur A, Marrodán, Undagoitia T, Massoli, FV, Mei, Y, Melgarejo, Fernandez A J, Meng, Y, Molinario, A, Nativ, E, Ni, K, Oberlack, U, Orrigo, SE A, Pantic, E, Patricio, JV, Persiani, R, Plante, G, Priel, N, Ribeiro, AC C, Rizzo, A, Rosendahl, S, dos, Santos J M F, Sartorelli, G, Schreiner, J, Schumann, M, Scotto, Lavina L, Scovell, PR, Selvi, M, Shagin, P, Simgen, H, Teymourian, A, Thers, D, Vitells, O, Wang, H, und Weber, Mand Weinheimer C. 2012. „The distributed Slow Control System of the XENON100 Experiment.“ Journal of Instrumentation 2012 (7): T12001. doi: 10.1088/1748-0221/7/12/T12001.
- Aprile, E., Arisaka, K., Arneodo, F., Askin, A., Baudis, L., Behrens, A., Bokeloh, K., Brown, E., Cardoso, J.M. R., Choi, B., Cline, D., Fattori, S., Ferella, A.D., Giboni, K.-L., Kish, A., Lam, C.W., Lamblin, J., Lang, R.F., Lim, K.E., Lin, Q., Lindemann, S., Lindner, M., Lopes, J.A. M., Lung, K., Undagoitia, T.Marroda´n, Mei, Y., Fernandez, A.J. Melgarejo, Ni, K., Oberlack, U., Orrigo, S.E. A., Pantic, E., Plante, G., Ribeiro, A.C. C., Santorelli, R., Santos, J.M. F. dos, Schumann, M., Shagin, P., Simgen, H., Teymourian, A., Thers, D., Tziaferi, E., Wang, H., und Weinheimer, M.Weber and C. 2012. „Erratum: Study of the electromagnetic background in the XENON100 experiment.“ Physical Review D (PRD) 85: 029904(E). doi: 10.1103/PhysRevD.85.029904.
- Jöhren, R, Berendes, R, Buglak, V, Hampf, D, Hannen, V, Mader, J, Nörtershäuser, W, und Sánchez, Rand Weinheimer C. 2012. „APDs as single-photon detectors for visible and near-infrared wavelengths down to Hz rates.“ Journal of Instrumentation 7: P02015. doi: 10.1088/1748-0221/7/02/P02015.
2011
- Dragoun, O, Špalek, A, Kašpar, J, Bonn, J, Kovalík, A, Otten, EW, Vénos, D, und Weinheimer, C. 2011. „Feasibility of photoelectron sources with sharp lines of stable energy between 20 and 80keV.“ Applied Radiation and Isotopes 69 (4): 672–677. doi: 10.1016/j.apradiso.2010.12.015.
- Lukic, S, Bornschein, B, Drexlin, G, Glck, F, Kazachenko, O, Schppner, M, Weinheimer, C, und Zoll, MCR. 2011. „Ion source for tests of ion behavior in the Karlsruhe tritium neutrino experiment beam line.“ Review of Scientific Instruments 82 (1). doi: 10.1063/1.3504372.
- Nanova, M, Weil, J, Friedrich, S, Metag, V, Mosel, U, Thiel, M, Anton, G, Bacelar, JCS, Bartholomy, O, Bayadilov, D, Beloglazov, YA, Bogendörfer, R, Castelijns, R, Crede, V, Dutz, H, Ehmanns, A, Elsner, D, Essig, K, Ewald, R, Fabry, I, Fuchs, M, Funke, C, Gothe, R, Gregor, R, Gridnev, AB, Gutz, E, Höffgen, S, Hoffmeister, P, Horn, I, Hössl, J, Jaegle, I, Junkersfeld, J, Kalinowsky, H, Klein, F, Klein, F, Klempt, E, Konrad, M, Kopf, B, Kotulla, M, Krusche, B, Langheinrich, J, Löhner, H, Lopatin, IV, Lotz, J, Lugert, S, Menze, D, Mertens, T, Messchendorp, JG, Morales, C, Novotny, R, Ostrick, M, Pant, LM, van Pee, H, Pfeiffer, M, Roy, A, Radkov, A, Schadmand, S, Schmidt, C, Schmieden, H, Schoch, B, Shende, S, Suft, G, Süle, A, Sumachev, VV, Szczepanek, T, Thoma, U, Trnka, D, Varma, R, Walther, D, Weinheimer, C, und Wendel, C. 2011. „Photoproduction of ω mesons on nuclei near the production threshold.“ European Physical Journal A: Hadrons and Nuclei 47 (2): 1–5.
- Valerius, K, Hein, H, Baumeister, H, Beck, M, Bokeloh, K, Bonn, J, Glück, F, Ortjohann, H-W, Ostrick, B, Zbořil, M, und Weinheimer, Ch. 2011. „Prototype of an angular-selective photoelectron calibration source for the KATRIN experiment.“ Journal of Instrumentation 6: P01002. doi: 10.1088/1748-0221/6/01/P01002.
- Tandecki, M., Beck, D., Beck, M., Brand, H., Breitenfeldt, M., De Leebeeck, V., Friedag, P., Herlert, A., Kozlov, V., Mader, J., Roccia, S., Soti, G., Traykov, E., Van Gorp, S., Wauters, F., Weinheimer, Ch., Zakoucky, D., und Severijns, N. 2011. „Computer controls for the WITCH experiment.“ Nuclear Instruments & Methods in Physics Research A 629: 396–405.
- Beck, M, und others. 2011. „First detection and energy measurement of recoil ions following beta decay in a Penning trap with the WITCH experiment.“ Eur. Phys. J. A47: 45.. doi: 10.1140/epja/i2011-11045-0.
- Krieger, A, und others. 2011. „Calibration of the ISOLDE acceleration voltage using a high-precision voltage divider and applying collinear fast beam laser spectroscopy.“ Nucl. Instrum. Meth. A632: 23–31. doi: 10.1016/j.nima.2010.12.145.
- Aprile, E, und others. 2011. „Study of the electromagnetic background in the XENON100 experiment.“ Phys. Rev. D83: 082001.. doi: 10.1103/PhysRevD.83.082001.
- Aprile, E, und others. 2011. „Likelihood Approach to the First Dark Matter Results from XENON100.“ Phys. Rev. D84: 052003.. doi: 10.1103/PhysRevD.84.052003.
- Aprile, E, und others. 2011. „Material screening and selection for XENON100.“ Astropart. Phys. 35: 43–49. doi: 10.1016/j.astropartphys.2011.06.001.
- Aprile, E, und others. 2011. „Implications on Inelastic Dark Matter from 100 Live Days of XENON100 Data.“ Phys. Rev. D84: 061101.. doi: 10.1103/PhysRevD.84.061101.
- Sejersen, Riis A, Hannestad, S, und Weinheimer, C. 2011. „Analysis of KATRIN data using Bayesian inference.“ Phys. Rev. C84: 045503.. doi: 10.1103/PhysRevC.84.045503.
- Lindner, M, und Weinheimer, C. 2011. „Den Geisterteilchen auf der Spur.“ Physik Journal 10N7: 31–37.
- Traykov, E, und others. 2011. „A compact radio frequency quadrupole for ion bunching in the WITCH experiment.“ Nucl. Instrum. Meth. A648: 1–14. doi: 10.1016/j.nima.2011.03.024.
- Aprile, E, Arisaka, K, Arneodo, F, Askin, A, Baudis, L, Behrens, A, Bokeloh, K, Brown, E, Bruch, T, Bruno, G, Cardoso, JMR, Chen, W, Choi, B, Cline, D, Duchovni, E, Fattori, S, Ferella, AD, Gao, F, Giboni, K, Gross, E, Kish, A, Lam, CW, Lamblin, J, Lang, RF, Levy, C, Lim, KE, Lin, Q, Lindemann, S, Lindner, M, Lopes, JAM, Lung, K, Marrodán, Undagoitia T, Mei, Y, Melgarejo, Fernandez AJ, Ni, K, Oberlack, U, Orrigo, SEA, Pantic, E, Persiani, R, Plante, G, Ribeiro, ACC, Santorelli, R, dos, Santos J MF, Sartorelli, G, Schumann, M, Selvi, M, Shagin, P, Simgen, H, Teymourian, A, Thers, D, Vitells, O, Wang, H, Weber, M, und Weinheimer, C. 2011. „Dark Matter Results from 100 Live Days of XENON100 Data.“ Physical Review Letters 107: 131302. doi: 10.1103/PhysRevLett.107.131302.
- Van Gorp, S, Beck, M, Breitenfeldt, M, De Leebeeck, V, Friedag, P, Herlert, A, Iitaka, T, Mader, J, Kozlov, V, Roccia, S, Soti, G, Tandecki, M, Traykov, E, Wauters, F, Weinheimer, Ch, Zákoucký, D, und Severijns, N. 2011. „Simbuca, using a graphics card to simulate Coulomb interactions in a penning trap.“ Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 2011 (638): 192–200.
2010
- Prall, M, Hannen, VM, Jöhren, R, Ortjohann, H-W, Reinhardt, M, und Weinheimer, C. 2010. „A contact-less 2-dimensional laser sensor for 3-dimensional wire position and tension measurements.“ IEEE Transactions on Nuclear Science 57 (2 PART 2): 787–792. doi: 10.1109/TNS.2010.2042612.
- Beck, M, Valerius, K, Bonn, J, Essig, K, Glück, F, Ortjohann, H-W, Ostrick, B, Otten, EW, Thümmler, T, Zbořil, M, und Weinheimer, C. 2010. „Effect of a sweeping conductive wire on electrons stored in a Penning-like trap between the KATRIN spectrometers.“ European Physical Journal A: Hadrons and Nuclei 44 (3): 499–511.
- Vénos, D, Zbořil, M, Kašpar, J, Dragoun, O, Bonn, J, Kovalík, A, Lebeda, O, Lebedev, NA, Ryšavý, M, Schlösser, K, Špalek, A, und Weinheimer, C. 2010. „Erratum: Development of a super-stable datum point for monitoring the energy scale of electron spectrometers in the energy range up to 20 keV (Measurement Techniques (2010) 53: 3 (305-312)).“ Measurement Techniques 53 (5): 573. doi: 10.1007/s11018-010-9545-3.
- Aprile, E, Arisaka, K, Arneodo, F, Askin, A, Baudis, L, Behrens, A, Bokeloh, K, Brown, E, Cardoso, JMR, Choi, B, Cline, DB, Fattori, S, Ferella, AD, Giboni, K-L, Kish, A, Lam, CW, Lamblin, J, Lang, RF, Lim, KE, Lopes, JAM, Marrodán, Undagoitia T, Mei, Y, Melgarejo, Fernandez AJ, Ni, K, Oberlack, U, Orrigo, SEA, Pantic, E, Plante, G, Ribeiro, ACC, Santorelli, R, Dos, Santos J MF, Schumann, M, Shagin, P, Teymourian, A, Thers, D, Tziaferi, E, Wang, H, und Weinheimer, C. 2010. „First dark matter results from the XENON100 experiment.“ Physical Review Letters 105 (13).
- Nanova, M, Metag, V, Anton, G, Bacelar, JCS, Bartholomy, O, Bayadilov, D, Beloglazov, YA, Bogendörfer, R, Castelijns, R, Crede, V, Dutz, H, Ehmanns, A, Elsner, D, Essig, K, Ewald, R, Fabry, I, Fuchs, M, Funke, C, Gothe, R, Gregor, R, Gridnev, AB, Gutz, E, Höffgen, S, Hoffmeister, P, Horn, I, Hössl, J, Jaegle, I, Junkersfeld, J, Kalinowsky, H, Klein, F, Klein, F, Klempt, E, Konrad, M, Kopf, B, Kotulla, M, Krusche, B, Langheinrich, J, Löhner, H, Lopatin, IV, Lotz, J, Lugert, S, Menze, D, Mertens, T, Messchendorp, JG, Morales, C, Novotny, R, Ostrick, M, Pant, LM, Van Pee, H, Pfeiffer, M, Roy, A, Radkov, A, Schadmand, S, Schmidt, C, Schmieden, H, Schoch, B, Shende, S, Suft, G, Süle, A, Sumachev, VV, Szczepanek, T, Thoma, U, Trnka, D, Varma, R, Walther, D, Weinheimer, C, und Wendel, C. 2010. „In-medium ω mass from the γ+Nb → π0γ+X reaction.“ Physical Review C 82 (3): 035209..
- Weinheimer, C. 2010. „Neutrino oscillations with a polarized laser beam: An analogical demonstration experiment.“ Progress in Particle and Nuclear Physics 64 (2): 205–209. doi: 10.1016/j.ppnp.2009.12.011.
- Weinheimer, C. 2010. „Non-oscillation probes of neutrino masses.“ AIP Conference Proceedings 1222: 36–41. doi: 10.1063/1.3399345.
- Vénos, D, Zbořil, M, Kašpar, J, Dragoun, O, Bonn, J, Kovalík, A, Lebeda, O, Lebedev, NA, Ryšavý, M, Schlösser, K, Špalek, A, und Weinheimer, C. 2010. „The development of a super-stable datum point for monitoring the energy scale of electron spectrometers in the energy range up to 20 keV.“ Measurement Techniques 53 (3): 573–581. doi: 10.1007/s11018-010-9545-3.
- Gutz, E, und others. 2010. „Photoproduction of meson pairs: First measurement of the polarization observable I^s.“ Phys. Lett. B687: 11–15. doi: 10.1016/j.physletb.2010.02.076.
2009
- Valerius, K, Beck, M, Arlinghaus, H, Bonn, J, Hannen, VM, Hein, H, Ostrick, B, Streubel, S, Weinheimer, C, und Zbořril, M. 2009. „A UV LED-based fast-pulsed photoelectron source for time-of-flight studies.“ New Journal of Physics 11: 063018.. doi: 10.1088/1367-2630/11/6/063018.
- Thümmler, Th, Marx, R, und Weinheimer, Ch. 2009. „Precision high voltage divider for the KATRIN experiment.“ New Journal of Physics 11 (10): 103007. doi: 10.1088/1367-2630/11/10/103007.
- Elsner, D, und others. 2009. „Linearly polarised photon beams at ELSA and measurement of the beam asymmetry in pi^0-photoproduction off the proton.“ Eur. Phys. J. A39: 373–381. doi: 10.1140/epja/i2008-10708-1.
- Crede, V, und others. 2009. „Photoproduction of $η$ and $η\prime$ Mesons off Protons.“ Phys. Rev. C80: 055202.. doi: 10.1103/PhysRevC.80.055202.
2008
- Jöhren, R, Anielski, D, Balgenort, M, Buglak, W, Hampf, D, Hannen, V, und Weinheimer, C. 2008. „Characterization of LN2 cooled LAAPDs for single photon counting applications.“ IEEE Nuclear Science Symposium Conference Record: 2475–2477.
- Eskut, E, Kayis-Topaksu, A, Önengüt, G, van Beuzekom, MG, van Dantzig, R, de Jong, M, Konijn, J, Melzer, O, Oldeman, RGC, Pesen, E, van der, Poel C AFJ, Visschers, JL, Güler, M, Köse, U, Serin-Zeyrek, M, Sever, R, Tolun, P, Zeyrek, MT, Armenise, N, Cassol, F, Catanesi, MG, De Serio, M, Muciaccia, MT, Radicioni, E, Righini, P, Simone, S, Vivolo, L, Bülte, A, Winter, K, Vander, Donckt M, Van de, Vyver B, Vilain, P, Wilquet, G, Saitta, B, Di Capua, E, Luppi, C, Ishii, Y, Kazuno, M, Ogawa, S, Shibuya, H, Brunner, J, Chizhov, M, Cussans, D, Doucet, M, Fabre, JP, Flegel, W, Hristova, IR, Kawamura, T, Kolev, D, Litmaath, M, Meinhard, H, Niu, E, Øveras, H, Panman, J, Papadopoulos, IM, Ricciardi, S, Rozanov, A, Saltzberg, D, Tsenov, R, Uiterwijk, JWE, Weinheimer, C, Wong, H, Zucchelli, P, Goldberg, J, Chikawa, M, Arik, E, Mailov, AA, Song, JS, Yoon, CS, Kodama, K, Ushida, N, Aoki, S, Hara, T, Brooijmans, G, Delbar, T, Favart, D, Grégoire, G, Hérin, J, Kalinin, S, Makhlioueva, I, Artamonov, A, Gorbunov, P, Khovansky, V, Shamanov, V, Tsukerman, I, Bonekämper, D, Bruski, N, Frekers, D, Rondeshagen, D, Wolff, T, Hoshino, K, Kawada, J, Komatsu, M, Kotaka, Y, Kozaki, T, Miyanishi, M, Nakamura, M, Nakano, T, Narita, K, Niu, K, Niwa, K, Nonaka, N, Obayashi, Y, Sato, O, Toshito, T, Buontempo, S, Cocco, AG, D'Ambrosio, N, De Lellis, G, De Rosa, G, Di Capua, F, Ereditato, A, Fiorillo, G, Marotta, A, Messina, M, Migliozzi, P, Palladino, V, Scotto, Lavina L, Strolin, P, Tioukov, V, Nakamura, K, Okusawa, T, Capone, A, De Pedis, D, Di Liberto, S, Dore, U, Loverre, PF, Ludovici, L, Maslennikov, A, Mazzoni, MA, Piredda, G, Rosa, G, Santacesaria, R, Satta, A, Spada, FR, Barbuto, E, Bozza, C, Grella, G, Romano, G, Sirignano, C, Sorrentino, S, Sato, Y, und Tezuka, I. 2008. „Final results on νμ → ντ oscillation from the CHORUS experiment.“ Nuclear Physics B 793 (1-2): 326–343. doi: 10.1016/j.nuclphysb.2007.10.023.
- Nanova, M, Bacelar, JCS, Bantes, B, Bartholomy, O, Bayadilov, D, Beck, R, Beloglazov, YA, Castelijns, R, Crede, V, Dutz, H, Ehmanns, A, Elsner, D, Essig, K, Ewald, R, Fabry, I, Fornet-Ponse, K, Fuchs, M, Funke, Ch, Gothe, R, Gregor, R, Gridnev, AB, Gutz, E, Hoffmeister, P, Horn, I, Jaegle, I, Junkersfeld, J, Kalinowsky, H, Kammer, S, Kleber, V, Klein, F, Klein, F, Klempt, E, Konrad, M, Kotulla, M, Krusche, B, Lang, M, Langheinrich, J, Löhner, H, Lopatin, IV, Lotz, J, Lugert, S, Menze, D, Messchendorp, JG, Mertens, T, Metag, V, Morales, C, Novinski, DV, Novotny, R, Ostrick, M, Pant, LM, Van Pee, H, Pfeiffer, M, Radkov, A, Roy, A, Schadmand, S, Schmidt, Ch, Schmieden, H, Schoch, B, Shende, SV, Sokhoyan, V, Süle, A, Sumachev, VV, Szczepanek, T, Thoma, U, Trnka, D, Varma, R, Walther, D, Weinheimer, Ch, und Wendel, Ch. 2008. „K0πand K*0∑+ photoproduction off the proton.“ European Physical Journal A: Hadrons and Nuclei 35 (3): 333–342.
- Kotulla, M, Trnka, D, Mühlich, P, Anton, G, Bacelar, JCS, Bartholomy, O, Bayadilov, D, Beloglazov, YA, Bogendörfer, R, Castelijns, R, Crede, V, Dutz, H, Ehmanns, A, Elsner, D, Ewald, R, Fabry, I, Fuchs, M, Essig, K, Funke, Ch, Gothe, R, Gregor, R, Gridnev, AB, Gutz, E, Höffgen, S, Hoffmeister, P, Horn, I, Hössl, J, Jaegle, I, Junkersfeld, J, Kalinowsky, H, Klein, F, Klein, F, Klempt, E, Konrad, M, Kopf, B, Krusche, B, Langheinrich, J, Löhner, H, Lopatin, IV, Lotz, J, Lugert, S, Menze, D, Messchendorp, JG, Mertens, T, Metag, V, Mosel, U, Nanova, M, Novotny, R, Ostrick, M, Pant, LM, Van Pee, H, Pfeiffer, M, Roy, A, Radkov, A, Schadmand, S, Schmidt, Ch, Schmieden, H, Schoch, B, Shende, S, Suft, G, Sumachev, VV, Szczepanek, T, Süle, A, Thoma, U, Varma, R, Walther, D, Weinheimer, Ch, und Wendel, Ch. 2008. „Modification of the ω-meson lifetime in nuclear matter.“ Physical Review Letters 100 (19): 192302.. doi: 10.1103/PhysRevLett.100.192302.
- Castelijns, R, Anisovich, AV, Bacelar, JCS, Bantes, B, Bartholomy, O, Bayadilov, D, Beloglazov, YA, Crede, V, Dutz, H, Ehmanns, A, Elsner, D, Essig, K, Ewald, R, Fabry, I, Fornet-Ponse, K, Fuchs, M, Funke, C, Gothe, R, Gregor, R, Gridnev, AB, Gutz, E, Höffgen, S, Hoffmeister, P, Horn, I, Jaegle, I, Junkersfeld, J, Kalinowsky, H, Kammer, S, Klein, F, Klein, F, Klempt, E, Konrad, M, Kotulla, M, Krusche, B, Langheinrich, J, Löhner, H, Lopatin, IV, Lotz, J, Lugert, S, Menze, D, Mertens, T, Messchendorp, JG, Metag, V, Morales, C, Nanova, M, Nikonov, VA, Novinski, D, Novotny, R, Ostrick, M, Pant, LM, Van Pee, H, Pfeiffer, M, Roy, A, Radkov, A, Sarantsev, AV, Schadmand, S, Schmidt, C, Schmieden, H, Schoch, B, Shende, S, Süle, A, Sumachev, VV, Szczepanek, T, Thoma, U, Trnka, D, Varma, R, Walther, D, Weinheimer, C, und Wendel, C. 2008. „Nucleon resonance decay by the K0∑channel.“ European Physical Journal A: Hadrons and Nuclei 35 (1): 39–45.
- Mertens, T, Jaegle, I, Mühlich, P, Bacelar, JCS, Bantes, B, Bartholomy, O, Bayadilov, DE, Beck, R, Beloglazov, YA, Castelijns, R, Crede, V, Dutz, H, Ehmanns, A, Elsner, D, Essig, K, Ewald, R, Fabry, I, Fornet-Ponse, K, Fuchs, M, Funke, C, Gothe, R, Gregor, R, Gridnev, AB, Gutz, E, Höffgen, S, Hoffmeister, P, Horn, I, Junkersfeld, J, Kalinowsky, H, Kammer, S, Kleber, V, Klein, F, Klein, F, Klempt, E, Konrad, M, Kotulla, M, Krusche, B, Lang, M, Langheinrich, J, Löhner, H, Lopatin, IV, Lotz, J, Lugert, S, Menze, D, Messchendorp, JG, Metag, V, Morales, C, Mosel, U, Nanova, M, Novinski, DV, Novotny, R, Ostrick, M, Pant, LM, Van Pee, H, Pfeiffer, M, Radkov, AK, Roy, A, Schadmand, S, Schmidt, C, Schmieden, H, Schoch, B, Shende, SV, Sokhoyan, V, Süle, A, Sumachev, VV, Szczepanek, T, Thoma, U, Trnka, D, Varma, R, Walther, D, Weinheimer, C, und Wendel, C. 2008. „Photoproduction of η-mesons off nuclei for Eγ 2.2 GeV.“ European Physical Journal A: Hadrons and Nuclei 38 (2): 195–207.
- Rasulbaev, M, Maier, K, Vianden, R, Thümmler, T, Ostrick, B, und Weinheimer, Ch. 2008. „Production of 83Rb for the KATRIN experiment.“ Applied Radiation and Isotopes 66 (12): 1838–1843. doi: 10.1016/j.apradiso.2008.04.020.
- Horn, I, Anisovich, AV, Anton, G, Bantes, R, Bartholomy, O, Beck, R, Beloglazov, Y, Bogendörfer, R, Castelijns, R, Credé, V, Ehmanns, A, Ernst, J, Fabry, I, Flemming, H, Fösel, A, Fuchs, M, Funke, Ch, Gothe, R, Gridnev, A, Gutz, E, Höffgen, S, Hößl, J, Junkersfeld, J, Kalinowsky, H, Klein, F, Klempt, E, Koch, H, Konrad, M, Kopf, B, Krusche, B, Langheinrich, J, Löhner, H, Lopatin, I, Lotz, J, Matthäy, H, Menze, D, Messchendorp, J, Metag, V, Nikonov, VA, Novinski, D, Ostrick, M, Van Pee, H, Sarantsev, AV, Schmidt, C, Schmieden, H, Schoch, B, Suft, G, Sumachev, V, Szczepanek, T, Thoma, U, Walther, D, und Weinheimer, Ch. 2008. „Study of the reaction γ p → p pi^0 η.“ European Physical Journal A: Hadrons and Nuclei 38 (2): 173–186.
- Kozlov, VYu, Beck, M, Coeck, S, Delahaye, P, Friedag, P, Herbane, M, Herlert, A, Kraev, IS, Tandecki, M, Van Gorp, S, Wauters, F, Weinheimer, Ch, Wenander, F, Zákoucký, D, und Severijns, N. 2008. „The WITCH experiment: Acquiring the first recoil ion spectrum.“ Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 266 (19-20): 4515–4520. doi: 10.1016/j.nimb.2008.05.150.
- Author(s) Sarantsev, A.V., Fuchs, M., Kotulla, M., Thoma, U., Ahrens, J., Annand, J.R. M., Anisovich, A.V., Anton, G., Bantes, R., Bartholomy, O., Beck, R., Beloglazov, Yu., Castelijns, R., Crede, V., Ehmanns, A., Ernst, J., Fabry, I., Flemming, H., Foesel, A., Funke, Chr., Gothe, R., Gridnev, A., Gutz, E., Hoeffgen, St., Horn, I., Hoessl, J., Hornidge, D., Janssen, S., Junkersfeld, J., Kalinowsky, H., Klein, F., Klempt, E., Koch, H., Konrad, M., Kopf, B., Krusche, B., Langheinrich, J., Loehner, H., Lopatin, I., Lotz, J., McGeorge, J.C., MacGregor, I.J. D., Matthaey, H., Menze, D., Messchendorp, J.G., Metag, V., Nikonov, V.A., Novinski, D., Novotny, R., Ostrick, M., van Pee, H., Pfeiffer, M., Radkov, A., Rosner, G., Rost, M., Schmidt, C., Schoch, B., Suft, G., Sumachev, V., Szczepanek, T., Walther, D., Watts, D.P., und Weinheimer, Chr. 2008. „New results on the Roper resonance and the $P_{11}$ partial wave.“ Phys. Lett. B659: 94–100. doi: 10.1016/j.physletb.2007.11.055.
- Thoma, U., Fuchs, M., Anisovich, A.V., Anton, G., Bantes, R., Bartholomy, O., Beck, R., Beloglazov, Yu., Crede, V., Ehmanns, A., Ernst, J., Fabry, I., Flemming, H., Foesel, A., Funke, Chr., Gothe, R., Gridnev, A., Gutz, E., Hoeffgen, St., Horn, I., Hoessl, J., Junkersfeld, J., Kalinowsky, H., Klein, F., Klempt, E., Koch, H., Konrad, M., Kopf, B., Krusche, B., Langheinrich, J., Loehner, H., Lopatin, I., Lotz, J., Matthaey, H., Menze, D., Nikonov, Va., Novinski, D., Ostrick, M., van Pee, H., Sarantsev, A.V., Schmidt, C., Schmieden, H., Schoch, B., Suft, G., Sumachev, V., Szczepanek, T., Walther, D., und Weinheimer, Chr. 2008. „N* and Delta* decays into N pi0 pi0.“ Phys. Lett. B659: 87–93. doi: 10.1016/j.physletb.2007.11.054.
- Horn, I, und others. 2008. „Evidence for a parity doublet $\Delta(1920)P_{33}$ and $\Delta(1940)D_{33}$ from $γ p\to pπ^0η$.“ Physical Review Letters 101: 202002.. doi: 10.1103/PhysRevLett.101.202002.
- Jaegle, I, und others. 2008. „Quasi-free photoproduction of eta-mesons of the neutron.“ Physical Review Letters 100: 252002.. doi: 10.1103/PhysRevLett.100.252002.
- Gutz, E, und others. 2008. „Measurement of the beam asymmetry Sigma in pi eta: Production off the proton with the CBELSA/TAPS experiment.“ Eur. Phys. J. A35: 291–293. doi: 10.1140/epja/i2008-10566-9.
- Klein, F, und others. 2008. „Beam asymmetry in near threshold omega photoproduction off the proton.“ Phys. Rev. D78: 117101.. doi: 10.1103/PhysRevD.78.117101.
- Otten, EW, und Weinheimer, C. 2008. „Neutrino mass limit from tritium beta decay.“ Rept. Prog. Phys. 71: 086201.. doi: 10.1088/0034-4885/71/8/086201.
2007
- Masood, SS, Nasri, S, Schechter, J, Tórtola, MA, Valle, JWF, und Weinheimer, C. 2007. „Exact relativistic β decay endpoint spectrum.“ Physical Review C 76 (4): 045501..
- Elsner, D, Anisovich, AV, Anton, G, Bacelar, JCS, Bantes, B, Bartholomy, O, Bayadilov, DE, Beck, R, Beloglazov, YA, Bogendörfer, R, Castelijns, R, Crede, V, Dutz, H, Ehmanns, A, Essig, K, Ewald, R, Fabry, I, Flemming, H, Fornet-Ponse, K, Fuchs, M, Funke, C, Gothe, R, Gregor, R, Gridnev, AB, Gutz, E, Höffgen, S, Hoffmeister, P, Horn, I, Hössl, J, Jaegle, I, Junkersfeld, J, Kalinowsky, H, Kammer, S, Kleber, V, Klein, F, Klein, F, Klempt, E, Koch, H, Konrad, M, Kopf, B, Kotulla, M, Krusche, B, Lang, M, Langheinrich, J, Löhner, H, Lopatin, IV, Lotz, J, Lugert, S, Matthäy, H, Menze, D, Mertens, T, Messchendorp, JG, Metag, V, Morales, C, Nanova, M, Nikonov, VA, Novinski, DV, Novotny, R, Ostrick, M, Pant, LM, Van Pee, H, Pfeiffer, M, Radkov, AK, Sarantsev, AV, Schadmand, S, Schmidt, C, Schmieden, H, Schoch, B, Shende, S, Suft, G, Süle, A, Sumachev, VV, Szczepanek, T, Thoma, U, Trnka, D, Walther, D, Weinheimer, C, und Wendel, C. 2007. „Measurement of the beam asymmetry in η photoproduction off the proton.“ European Physical Journal A: Hadrons and Nuclei 33 (2): 147–155.
- Ch, Weinheimer. 2007. „Neutrino mass from beta decay.“ Nuclear Physics B - Proceedings Supplements 168: 5–10. doi: 10.1016/j.nuclphysbps.2007.02.001.
- Bartholomy, O, Bogendörfer, R, Credé, V, Fabry, I, Anisovich, AV, Anton, G, Bantes, R, Beloglazov, YA, Castelijns, R, Ehmanns, A, Ernst, J, Flemming, H, Fösel, A, Fuchs, M, Funke, Ch, Gothe, R, Gridnev, AB, Gutz, E, Höffgen, S, Horn, I, Hößl, J, Junkersfeld, J, Kalinowsky, H, Klein, F, Klempt, E, Koch, H, Konrad, M, Kopf, B, Krusche, B, Langheinrich, J, Löhner, H, Lopatin, IV, Lotz, J, Matthäy, H, Menze, D, Messchendorp, J, Nikonov, VA, Novinski, DV, Ostrick, M, Van Pee, H, Radkov, AK, Sarantsev, AV, Schadmand, S, Schmidt, C, Schmieden, H, Schoch, B, Suft, G, Sumachev, VV, Szczepanek, T, Thoma, U, Walther, D, und Weinheimer, Ch. 2007. „Photoproduction of η -mesons off protons.“ European Physical Journal A: Hadrons and Nuclei 33 (2): 133–146.
- Van Pee, H, Bartholomy, O, Crede, V, Anisovich, AV, Anton, G, Bantes, R, Beloglazov, Yu, Bogendörfer, R, Castelijns, R, Ehmanns, A, Ernst, J, Fabry, I, Flemming, H, Fösel, A, Fuchs, M, Funke, Ch, Gothe, R, Gridnev, A, Gutz, E, Höffgen, St, Horn, I, Hößl, J, Junkersfeld, J, Kalinowsky, H, Klein, F, Klempt, E, Koch, H, Konrad, M, Kopf, B, Krusche, B, Langheinrich, J, Löhner, H, Lopatin, I, Lotz, J, Matthäy, H, Menze, D, Messchendorp, J, Nikonov, VA, Novinski, D, Ostrick, M, Radkov, A, Sarantsev, AV, Schadmand, S, Schmidt, C, Schmieden, H, Schoch, B, Suft, G, Sumachev, V, Szczepanek, T, Thoma, U, Walther, D, und Weinheimer, Ch. 2007. „Photoproduction of π0-mesons off protons from the Δ(1232) region to Eγ = 3 GeV.“ European Physical Journal A: Hadrons and Nuclei 31 (1): 61–77.
- Junkersfeld, J, Anisovich, AV, Anton, G, Bantes, R, Bartholomy, O, Beck, R, Beloglazov, Yu, Bogendörfer, R, Castelijns, R, Crede, V, Ehmanns, A, Ernst, J, Fabry, I, Flemming, H, Fösel, A, Fuchs, M, Funke, Ch, Gothe, R, Gridnev, A, Gutz, E, Höffgen, St, Horn, I, Hößl, J, Kalinowsky, H, Klein, F, Klempt, E, Koch, H, Konrad, M, Kopf, B, Krusche, B, Langheinrich, J, Löhner, H, Lopatin, I, Lotz, J, Matthäy, H, Menze, D, Messchendorp, J, Nikonov, VA, Novinski, D, Ostrick, M, Van Pee, H, Radkov, A, Sarantsev, AV, Schadmand, S, Schmidt, C, Schmieden, H, Schoch, B, Suft, G, Sumachev, V, Szczepanek, T, Thoma, U, Walther, D, und Weinheimer, Ch. 2007. „Photoproduction of π0ω off protons for E γ ≤ 3 GeV.“ European Physical Journal A: Hadrons and Nuclei 31 (3): 365–372.
- Drexlin, G, und Weinheimer, C. 2007. „KATRIN: A key experiment of astroparticle physics.“ Nachr. Forsch. Zentr. Karlsruhe 39N1: 63–68.
- Gumbsheimer, R, und others. 2007. „Electrostatic spectrometers and detectors for KATRIN.“ Nachr. Forsch. Zentr. Karlsruhe 39N1: 75–80.
2006
- Weinheimer, C. 2006. „Direct neutrino mass measurements.“ International Journal of Modern Physics A 21 (8-9): 1875–1886. doi: 10.1142/S0217751X06032836.
- Weinheimer, C. 2006. „Neutrino mass from triton decay.“ Progress in Particle and Nuclear Physics 57 (1): 22–37. doi: 10.1016/j.ppnp.2006.01.001.
- Gehring, R, Osipowicz, A, und Weinheimer, C. 2006. „Optimization calculations for the KATRIN magnet system.“ IEEE Transactions on Applied Superconductivity 16 (2): 1859–1861. doi: 10.1109/TASC.2006.871237.
- Otten, EW, Bonn, J, und Weinheimer, Ch. 2006. „The Q-value of tritium β-decay and the neutrino mass.“ International Journal of Mass Spectrometry 251 (2-3 SPEC. ISS.): 173–178. doi: 10.1016/j.ijms.2006.01.035.
- Weinheimer, C. 2006. „Kern- und Teilchenphysik.“ In Physikzentrum Bad Honnef -- ein Platz für Dialog und Inspiration, herausgegeben von B Schoch. unbekannt / n.a. / unknown.
2005
- Weinheimer, C. 2005. „Direct determination of the neutrino masses.“ Comptes Rendus Physique 6 (7): 768–777. doi: 10.1016/j.crhy.2005.07.005.
- Weinheimer, C. 2005. „Measuring neutrino properties with tritium.“ Fusion Science and Technology 48 (1): 723–730.
- Kraus, C, Bornschein, L, Bonn, J, Bornschein, B, Flatt, B, Kovalik, A, Muller, B, Otten, EW, Schall, JP, Thummler, T, und Weinheimer, C. 2005. „The Mainz Neutrino Mass Experiment.“ Nucl. Phys. B Proc. Suppl. 143: 499.
- Crede, V, und others. 2005. „Photoproduction of eta mesons off protons for 0.75-GeV < E(gamma) < 3-GeV.“ Physical Review Letters 94: 012004.. doi: 10.1103/PhysRevLett.94.012004.
- Bartholomy, O, und others. 2005. „Neutral pion photoproduction off protons in the energy range 0.3-GeV < E(gamma) < 3-GeV.“ Physical Review Letters 94: 012003.. doi: 10.1103/PhysRevLett.94.012003.
- Kraus, C, und others. 2005. „Final Results from phase II of the Mainz Neutrino Mass Search in Tritium $β$ Decay.“ Eur. Phys. J. C40: 447–468. doi: 10.1140/epjc/s2005-02139-7.
- Trnka, D, und others. 2005. „First observation of in-medium modifications of the omega meson.“ Physical Review Letters 94: 192303.. doi: 10.1103/PhysRevLett.94.192303.
- Angrik, J, und others. 2005. „KATRIN design report 2004.“ Scientific Report FZKA Nr. 7090. http://bibliothek.fzk.de/zb/abstracts/7090.htm.
- Weinheimer, C. 2005. „Absolute masses of neutrinos: Experimental results and future possibilities.“ Physica Scripta T121: 166–171. doi: 10.1088/0031-8949/2005/T121/026.
2004
- Kraus, C, und others. 2004. „Latest results from the Mainz Neutrino Mass Experiment.“ Eur. Phys. J. C33: s805–s807.. doi: 10.1140/epjcd/s2003-03-902-9.
- Ahrens, J, und others. 2004. „Calibration and survey of AMANDA with the SPASE detectors.“ Nucl. Instrum. Meth. A522: 347–359. doi: 10.1016/j.nima.2003.12.007.
- Weinheimer, C. 2004. „Spectroscopy experiments at ELSA.“ AIP Conference Proceedings 717: 221–230. doi: 10.1063/1.1799707.
2003
- Bornschein, B, Bonn, J, Bornschein, L, Otten, EW, und Weinheimer, Ch. 2003. „Self-charging of quench condensed tritium films.“ Journal of Low Temperature Physics 131: 69..
- Weinheimer, C. 2003. „Laboratory limits on neutrino masses.“ In Massive Neutrinos, Springer Tracts in Modern Physics, herausgegeben von G Altarelli und K Winter. Springer VDI Verlag.
- Ahrens, J, und others. 2003. „Search for neutrino-induced cascades with the AMANDA detector.“ Phys. Rev. D67: 012003.. doi: 10.1103/PhysRevD.67.012003.
- Ahrens, J, und others. 2003. „Search for point sources of high energy neutrinos with AMANDA.“ Astrophysical Journal 583: 1040–1057. doi: 10.1086/345352.
- Ahrens, J, und others. 2003. „IceCube: The next generation neutrino telescope at the South Pole.“ Nucl. Phys. Proc. Suppl. 118: 388–395.
- Ahrens, J, und others. 2003. „Results from the antarctic muon and neutrino detector array.“ Nucl. Phys. Proc. Suppl. 118: 371–379. doi: 10.1016/S0920-5632(03)01335-5.
- Ahrens, J, und others. 2003. „Results from the AMANDA telescope.“ Nucl. Phys. A721: 545–548. doi: 10.1016/S0375-9474(03)01120-5.
- Weinheimer, C. 2003. „eta pi0 photoproduction off protons with the CB-ELSA experiment.“ Nucl. Phys. A721: 781–784. doi: 10.1016/S0375-9474(03)01180-1.
- Weinheimer, C. 2003. „Direct neutrino mass experiments: Present and future.“ Nucl. Phys. Proc. Suppl. 118: 279–286. doi: 10.1016/S0920-5632(03)01330-6.
2002
- Ahrens, J, und others. 2002. „Search for supernova neutrino-bursts with the AMANDA detector.“ Astropart. Phys. 16: 345–359. doi: 10.1016/S0927-6505(01)00154-2.
- Ahrens, J, und others. 2002. „Limits to the muon flux from WIMP annihilation in the center of the earth with the AMANDA detector.“ Phys. Rev. D66: 032006.. doi: 10.1103/PhysRevD.66.032006.
- Ahrens, J, und others. 2002. „Observation of high energy atmospheric neutrinos with the Antarctic Muon and Neutrino Detector Array.“ Phys. Rev. D66: 012005.. doi: 10.1103/PhysRevD.66.012005.
- Bonn, J, und others. 2002. „Results from the Mainz neutrino mass experiment.“ Progress in Particle and Nuclear Physics 48: 133–139. doi: 10.1016/S0146-6410(02)00119-9.
- Weinheimer, C. 2002. „KATRIN, a next generation tritium beta decay experiment in search for the absolute neutrino mass scale.“ Progress in Particle and Nuclear Physics 48: 141–150. doi: 10.1016/S0146-6410(02)00120-5.
- Bonn, J, und others. 2002. „Limits on neutrino masses from tritium beta decay.“ Nucl. Phys. Proc. Suppl. 110: 395–397.
- Otten, EW, und others. 2002. „Results from the Mainz neutrino mass experiment.“ Phys. Atom. Nucl. 65: 2171–2175. doi: 10.1134/1.1530296.
- Wiebusch, C, und others. 2002. „Results from AMANDA.“ Mod. Phys. Lett. A17: 2019–2037. doi: 10.1142/S0217732302008575.
- Karle, A, und others. 2002. „Observation of high energy atmospheric neutrinos with AMANDA.“ doi: 10.1063/1.1345374.
2001
- Eskut, E, Kayis-Topaksu, A, Onengüt, G, Van Dantzig, R, De Jong, M, Konijn, J, Melzer, O, Oldeman, RGC, Pesen, E, Van der, Poel C AFJ, Uiterwijk, JWE, Visschers, JL, Guler, M, Serin-Zeyrek, M, Sever, R, Tolun, P, Zeyrek, MT, Armenise, N, Cassol, F, Catanesi, MG, De Serio, M, Muciaccia, MT, Radicioni, E, Righini, P, Simone, S, Vivolo, L, Bülte, A, Winter, K, Annis, P, El-Aidi, R, Vander, Donckt M, Van de, Vyver B, Vilain, P, Wilquet, G, Saitta, B, Di Capua, E, Ishii, Y, Kazuno, M, Ogawa, S, Shibuya, H, Brunner, J, Chizhov, M, Cussans, D, Doucet, M, Fabre, JP, Flegel, W, Litmaath, M, Meinhard, H, Niu, E, Øveras, H, Panman, J, Papadopoulos, IM, Ricciardi, S, Rozanov, A, Saltzberg, D, Strolin, P, Tsenov, R, Weinheimer, C, Wong, H, Zucchelli, P, Goldberg, J, Chikawa, M, Arik, E, Mailov, AA, Song, JS, Yoon, CS, Kodama, K, Ushida, N, Aoki, S, Hara, T, Brooijmans, G, Favart, D, Grégoire, G, Hérin, J, Artamonov, A, Gorbunov, P, Khovansky, V, Shamanov, V, Tsukerman, I, Bonekämper, D, D'Ambrosio, N, Frekers, D, Rondeshagen, D, Wolff, T, Hoshino, K, Komatsu, M, Kotaka, Y, Kozaki, T, Miyanishi, M, Nakamura, M, Nakano, T, Niu, K, Niwa, K, Obayashi, Y, Sato, O, Toshito, T, Bruski, N, Buontempo, S, Cocco, AG, und De Lellis, G. 2001. „New results from a search for vμ → vτ and ve → vτ oscillation.“ Physics Letters B 497 (1-2): 8–22.
- Andres, E, und others. 2001. „Results from the AMANDA high energy neutrino detector.“ Nucl. Phys. Proc. Suppl. 91: 423–430. doi: 10.1016/S0920-5632(00)00971-3.
- Eskut, E, und others. 2001. „Observation of weak neutral current neutrino production of J/psi.“ Phys. Lett. B503: 1–9. doi: 10.1016/S0370-2693(01)00130-7.
- Bonn, J, und others. 2001. „The Mainz neutrino mass experiment.“ Nucl. Phys. Proc. Suppl. 91: 273–279. doi: 10.1016/S0920-5632(00)00951-8.
- Andres, E, Askebjer, P, Bai, X, Barouch, G, Barwick, SW, Bay, TC, Becker, KH, Bergstrom, L, Bertrand, D, Bierenbaum, D, Biron, A, Booth, J, Botner, O, Bouchta, A, Boyce, MM, Carius, S, Chen, A, Chirkin, D, Conrad, J, Cooley, J, Costa, CGS, Cowen, DF, Dailing, J, Dalberg, E, DeYoung, T, Desiati, P, Dewulf, JP, Doksus, P, Edsjo, J, Ekstrom, P, Erlandsson, B, Feser, T, Gaug, M, Goldschmidt, A, Goobar, A, Gray, L, Haase, H, Hallgren, A, Halzen, F, Hanson, K, Hardtke, R, He, YD, Hellwig, M, Heukenkamp, H, Hill, GC, Hulth, PO, Hundertmark, S, Jacobsen, J, Kandhadai, V, Karle, A, Kim, J, Koci, B, Kopke, L, Kowalski, M, Leich, H, Leuthold, M, Lindal, P, Liubarsky, I, Loaiza, P, Lowder, DM, Ludvig, J, Madsen, J, Marciniewski, P, Matis, HS, Mihalyi, A, Mikolajski, T, Miller, TC, Minaeva, Y, Miocinovic, P, Mock, PC, Morse, R, Neunhoffer, T, Newcomer, FM, Niessen, P, Nygren, DR, Ogelman, H, de los Heros, CP, Porrata, R, Price, PB, Rawlins, K, Reed, C, Rhode, W, Richards, A, Richter, S, Martino, JR, Romenesko, P, Ross, D, Rubinstein, H, Sander, HG, Scheider, T, Schmidt, T, Schneider, D, Schneider, E, Schwarz, R, Silvestri, A, Solarz, M, Spiczak, GM, Spiering, C, Starinsky, N, Steele, D, Steffen, P, Stokstad, RG, Usechak, N, Vander Donckt, M, Walck, C, Weinheimer, C, Wiebusch, CH, Wischnewski, R, Wissing, H, Woschnagg, K, Wu, W, Yodh, G, und Young, S. 2001. „Observation of high-energy neutrinos using Cherenkov detectors embedded deep in Antarctic ice.“ Nature 410: 441–443. doi: 10.1038/35068509.
- Andres, E, und others. 2001. „Recent results from AMANDA.“ Int. J. Mod. Phys. A16S1C: 1013–1015.
2000
- Bonn, J, Bornschein, B, Bornschein, L, Fickinger, L, Kazachenko, O, Kovalik, A, Kraus, C, Ulrich, H, Otten, EW, und Weinheimer, C. 2000. „Newest results from the Mainz neutrino mass experiment.“ Nucl. Phys. B Proc. Suppl. 85: 273–279.
- Fleischmann, L, Bonn, J, Bornschein, B, Leiderer, P, Otten, EW, Przyrembel, M, und Weinheimer, C. 2000. „On dewetting dynamics of solid films of hydrogen isotopes and its influence on tritium beta spectroscopy.“ Eur. Phys. J. B 16: 521–529.
- Fleischmann, L, Bonn, J, Degen, B, Przyrembel, M, Otten, EW, Weinheimer, C, und Leiderer, P. 2000. „Structural stability of solid deuterium films.“ Journal of Low Temperature Physics 119: 615–625.
- Aseev, VN, Belesev, AI, Berlev, AI, Geraskin, EV, Kazachenko, OV, Kuznetsov, YE, Lobashev, VM, Ostroumov, RP, Titov, NA, Zadorozhny, SV, Zakharov, YI, Bonn, J, Bornschein, B, Bornschein, L, Otten, EW, Przyrembel, M, Weinheimer, C, und Saenz, A. 2000. „Energy loss of 18 keV electrons in gaseous T-2 and quench condensed D-2 films.“ Eur. Phys. J. D 10: 39–52.
- Bonn, J, und others. 2000. „Results of the Mainz neutrino mass experiment.“ Nucl. Phys. Proc. Suppl. 87: 271–274. doi: 10.1016/S0920-5632(00)00677-0.
- Bonn, J, und others. 2000. „Newest results from the Mainz neutrino mass experiment.“ Phys. Atom. Nucl. 63: 969–974. doi: 10.1134/1.855733.
- Bonn, J, und Weinheimer, C. 2000. „Neutrino mass from tritium beta decay: Present limits and perspectives.“ Acta Phys. Polon. B31: 1209–1220.
1999
- Haag, HW, Otten, EW, Schick, M, und Weinheimer, Ch. 1999. „Dispersion relations measured at the D2 resonance of Rb-85.“ European Journal of Physics 20: 231–239. doi: 10.1088/0143-0807/20/3/314.
- Haag, HW, Otten, EW, Schlick, M, und Weinheimer, Ch. 1999. „Discussion of dispersion relations in atomic spectra with respect to experimental demonstration.“ European Journal of Physics 29: 221–229. doi: 10.1088/0143-0807/20/3/313.
- Barth, H, Bleile, A, Bonn, J, Bornschein, L, Degen, B, Fleischmann, L, Kazachenko, O, Kovalik, A, Otten, EW, Przyrembel, M, und Weinheimer, Ch. 1999. „New results from the Mainz Neutrino Mass Experiment.“ Nuclear Physics A 654: 988c–993c.
- Bonn, J, Bornschein, L, Degen, B, Otten, EW, und Weinheimer, C. 1999. „A high resolution electrostatic time-of-flight spectrometer with adiabatic magnetic collimation.“ Nuclear Instruments & Methods in Physics Research A 421: 256–265.
- Barth, H, und others. 1999. „New results from the Mainz neutrino mass experiment.“ Nucl. Phys. Proc. Suppl. 77: 321–326. doi: 10.1016/S0920-5632(99)00436-3.
- Weinheimer, C, und others. 1999. „High precision measurement of the tritium beta spectrum near its endpoint and upper limit on the neutrino mass.“ Phys. Lett. B460: 219–226. doi: 10.1016/S0370-2693(99)00780-7.
1998
- Eskut, E, Kayis, A, Onengüt, G, Van Dantzig, R, De Jong, M, Konijn, J, Melzer, O, Oldeman, RGC, Van Der, Poel C AFJ, Uiterwijk, JWE, Visschers, JL, Ayan, AS, Pesen, E, Serin-Zeyrek, M, Sever, R, Tolun, P, Zeyrek, MT, Armenise, N, Cassol, F, Catanesi, MG, Muciaccia, MT, Radicioni, E, Simone, S, Vivolo, L, Bülte, A, Lendermann, P, Meyer-Sievers, A, Patzak, T, Winter, K, Annis, P, Gruwé, M, Mommaert, C, Vander, Donckt M, Van De, Vyver B, Vilain, P, Wilquet, G, Righini, P, Saitta, B, Di Capua, E, Luppi, C, Zucchelli, P, Ishii, Y, Kawamura, T, Kazuno, M, Ogawa, S, Shibuya, H, Beyer, R, Brunner, J, Cussans, D, Fabre, JP, Ferreira, R, Flegel, W, Gurin, R, Litmaath, M, Ludovici, L, Macina, D, Meijer, Drees R, Meinhard, H, Migliozzi, P, Niu, E, Øveras, H, Panman, J, Papadopoulos, IM, Riccardi, F, Ricciardi, S, Rozanov, A, Saltzberg, D, Santacesaria, R, Stefanini, G, Tsenov, R, Weinheimer, Ch, Wong, H, Goldberg, J, Hoepfner, K, Chikawa, M, Arik, E, Birol, I, Mailov, AA, Hahn, CH, Jang, HI, Park, IG, Park, MS, Song, JS, Yoon, CS, Kodama, K, Ushida, N, Aoki, S, Hara, T, Brooijmans, G, Favart, D, Grégoire, G, Hérin, J, Lemaître, V, Artamonov, A, Gorbunov, P, Khovansky, V, Shamanov, V, Smirnitsky, V, und Bonekämper, D. 1998. „A search for νμ → ντ oscillation.“ Physics Letters B 424 (1-2): 202–212. doi: 10.1016/S0370-2693(98)00081-1.
- Eskut, E, Kayis, A, Onengüt, G, Van Dantzig, R, De Jong, M, Konijn, J, Melzer, O, Oldeman, RGC, Van Der, Poel C AFJ, Uiterwijk, JWE, Visschers, JL, Guler, M, Serin-Zeyrek, M, Sever, R, Tolun, P, Zeyrek, MT, Armenise, N, Cassol, F, Catanesi, MG, Muciaccia, MT, Radicioni, E, Simone, S, Vivolo, L, Bülte, A, Patzak, T, Winter, K, Annis, P, El, Aidi R, Gruwé, M, Mommaert, C, Vander, Donckt M, Van De, Vyver B, Vilain, P, Wilquet, G, Righini, P, Saitta, B, Di Capua, E, Luppi, C, Zucchelli, P, Ishii, Y, Kawamura, T, Kazuno, M, Ogawa, S, Shibuya, H, Brunner, J, Cussans, D, Fabre, JP, Ferreira, R, Flegel, W, Litmaath, M, Macina, D, Meijer, Drees R, Meinhard, H, Migliozzi, P, Niu, E, Øveras, H, Panman, J, Papadopoulos, IM, Pesen, E, Riccardi, F, Ricciardi, S, Rozanov, A, Saltzberg, D, Strolin, P, Tsenov, R, Weinheimer, Ch, Wong, H, Goldberg, J, Hoepfner, K, Chikawa, M, Arik, E, Mailov, AA, Jang, HI, Park, IG, Song, JS, Yoon, CS, Kodama, K, Ushida, N, Aoki, S, Hara, T, Brooijmans, G, Favart, D, Grégoire, G, Hérin, J, Artamonov, A, Gorbunov, P, Khovansky, V, Shamanov, V, Bonekämper, D, Frekers, D, Rondeshagen, D, Wolff, T, Hoshino, K, Kobayashi, M, Komatsu, M, Kotaka, Y, Kosaki, T, Miyanishi, M, und Nakamura, M. 1998. „Search for vμ → vτ oscillation using the τ decay modes into a single charged particle.“ Physics Letters B 434 (1-2): 205–213.
- Annis, P, Aoki, S, Brooijmans, G, Brunner, J, Dupraz, J, Dupont, J, Fabre, J-P, Favart, D, Flegel, W, Frekers, D, Grégoire, G, Gruwé, M, Herin, J, Hoepfner, K, Kobayashi, M, Konijn, J, Kozaki, T, Lamonte, P, Lemaitre, V, Lendermann, P, Macina, D, Meijer, Drees R, Michel, L, Mommaert, C, Nakamura, K, Nakamura, M, Nakano, T, Nappey, P, Niwa, K, Niu, E, Panman, J, Pintus, R, Riccardi, F, Reynaud, S, Rondeshagen, D, Sato, O, Stefanini, G, Van Beek, G, Vander, Donckt M, Vilain, P, Weinheimer, C, Wilquet, G, Winter, K, und Wong, HT. 1998. „The CHORUS scintillating fiber tracker and opto-electronic readout system.“ Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 412 (1): 19–37. doi: 10.1016/S0168-9002(98)00276-9.
- Annis, P, und others. 1998. „Observation of neutrino induced diffractive D/s*+ production and subsequent decay D/s*+ --> D/s+ --> tau+ -- > mu+.“ Phys. Lett. B435: 458–464. doi: 10.1016/S0370-2693(98)00914-9.
- Barth, H, und others. 1998. „Status of the Mainz neutrino mass experiment.“ Nucl. Phys. Proc. Suppl. 66: 183–186. doi: 10.1016/S0920-5632(98)00031-0.
- Barth, H, und others. 1998. „Status and perspectives of the Mainz neutrino mass experiment.“ Progress in Particle and Nuclear Physics 40: 353–376. doi: 10.1016/S0146-6410(98)00045-3.
1997
- E. Eskut, A.Kayis, G. Onengüt, R.van Dantzig, J. Konijn, R.G.C.Oldeman, C.A.F.J. van der Poel, J.W.E.Uiterwijk, J.L. Visschers, A.S.Ayan, E. Pesen, M.Serin-Zeyrek, R. Sever, P.Tolun, M.T. Zeyrek, N.Armenise, F. Cassol, M.G.Catanesi, M.T. Muciaccia, E.Radicioni, S. Simone, L.Vivolo, D. Eckstein, P.Lendermann, A. Meyer-Sievers, T.Patzak, K. Winter, P.Righini, B. Saitta, P.Annis, M. Gruwe, C.Mommaert, M. Vander Donckt, B.Van de Vyver, P. Vilain, G.Wilquet, E. Di Capua, M.Ferroni, C. Luppi, S.Ricciardi, Y. Ishii, T.Kawamura, M. Kazuno, S.Ogawa, H. Shibuya, R.Beyer, J. Brunner, G.Carnevale, J.P. Fabre, R.Ferreira, W. Flegel, R.Gurin, M. de Jong, M.Litmaath, L. Ludovici, D.Macina, R. Meijer Drees, H.Meinhard, E. Niu, H.Øverȧs, J. Panman, F.Riccardi, A. Rozanov, D.Saltzberg, G. Stefanini, R.Tzenov, Ch. Weinheimer, H.T.Wong, P. Zucchelli, J.Goldberg, K. Hoepfner, H.Chikawa, E. Arik, I.Birol, A.A. Mailov, C.H.Hahn, H.I. Jang, D.C.Kim, J.Y. Kim, S.N.Kim, I.G. Park, M.S.Park, J.S. Song, C.S.Yoon, K. Kodama, N.Ushida, S. Aoki, T.Hara, G. Brooijmans, D.Favart, G. Grégoire, J.Hérin, V. Lemaitre, A.Artamonov, V. Epstein, P.Gorbunov, V. Khovansky, V.Shamanov, V. Smirnitsky, D.Bonekämper, D. Frekers, D.Rondeshagen, 1, T.Wolff, 1, K.Hoshino, M. Kobayashi, M.Komatzu, Y. Kotaka, T.Kozaki, M. Miyanishi, M.Nakamura, T. Nakano, K.Niu, K. Niwa, Y.Obayashi, O. Sato, T.Toshito, S. Buontempo, L.Casagrande, A.G. Cocco, N.D'Ambrosio, A. Ereditato, G.Fiorillo, F. Garufi, F.Marchetti-Stasi, M. Messina, P.Migliozzi, V. Palladino, S.Sorrentino, P. Strolin, K.Nakamura, T. Okusawa, T.Yoshida, A. Capone, D.De Pedis, S. Di Liberto, U.Dore, P.F. Loverre, A.Maslennikov, M.A. Mazzoni, F.Meddi, G. Piredda, R.Santacesaria, A. di Bartolomeo, C.Bozza, G. Grella, G.Iovane, G. Romano, G.Rosa, und Y. Sato, I.Tezuka. 1997. „The CHORUS experiment to search for νμ → ντ oscillation.“ Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 401 (1): 7–44. doi: 10.1016/S0168-9002(97)00931-5.
1996
- Macina, D, und others. 1996. „The CHORUS experiment.“ Nucl. Phys. Proc. Suppl. 48: 183–187. doi: 10.1016/0920-5632(96)00234-4.
1994
- BACKE, H, BARTH, H, BONN, J, DEGEN, B, EDLING, T, FLEISCHMANN, L, GROOSS, JU, HAID, R, HERMANNI, A, KUBE, G, LEIDERER, P, LOEKEN, T, MOLZ, A, MOORE, RB, OSIPOWICZ, A, OTTEN, EW, PICARD, A, PRZYREMBEL, M, SCHRADER, M, STEININGER, M, und WEINHEIMER, C. 1994. „A new upper limit of the electron anti neutrino rest mass from tritium beta-decay.“ Nucl. Phys. B Proc. Suppl. 31: 46–49.
- Backe, H, und others. 1994. „Resonant transition radiation in the X-Ray region from a low emittance 855-MeV electron beam.“ Z. Phys. A349: 87–92. doi: 10.1007/BF01296337.
- Backe, H, und others. 1994. „Future perspectives of the Mainz neutrino mass experiment.“ Progress in Particle and Nuclear Physics 32: 173–174. doi: 10.1016/0146-6410(94)90017-5.
1993
- Backe, H, und others. 1993. „A New upper limit of the electron anti-neutrino rest mass from tritium beta decay.“ Nucl. Phys. A553: 313c–316c.. doi: 10.1016/0375-9474(93)90632-8.
- Weinheimer, C, und others. 1993. „Improved limit on the electron anti-neutrino rest mass from tritium beta decay.“ Phys. Lett. B300: 210–216. doi: 10.1016/0370-2693(93)90355-L.
1992
- PICARD, A, BACKE, H, BARTH, H, BONN, J, DEGEN, B, EDLING, T, HAID, R, HERMANNI, A, LEIDERER, P, LOEKEN, T, MOLZ, A, MOORE, RB, OSIPOWICZ, A, OTTEN, EW, PRZYREMBEL, M, SCHRADER, M, STEININGER, M, und WEINHEIMER, C. 1992. „A solenoid retarding spectrometer with high-resolution and transmission for kev electrons.“ Nuclear Instruments & Methods in Physics Research B 63: 345–358.
- PICARD, A, BACKE, H, BONN, J, DEGEN, B, HAID, R, HERMANNI, A, LEIDERER, P, OSIPOWICZ, A, OTTEN, EW, PRZYREMBEL, M, SCHRADER, M, STEININGER, M, und WEINHEIMER, C. 1992. „Precision measurement of the conversion electron spectrum of Kr-83m with a solenoid retarding spectrometer.“ Zeitschrift für Physik A 342: 71–78.
- WEINHEIMER, C, SCHRADER, M, BONN, J, LOEKEN, T, und BACKE, H. 1992. „Measurement of energy resolution and dead layer thickness of LN2-cooled PIN photodiodes.“ Nuclear Instruments and Methods A 311: 273–279.

Betreute Promotionen

Gauda, Kevin	Studies of Background Reduction via angular-selective Electron Detection in the KATRIN Experiment	2024
Petrak, Pia Leonie Jones	Lattice QCD determination of baryon sigma terms	2024
Lutz Althüser	Search for Dark Matter and other beyond the Standard Model physics with XENON1T and XENONnT	2023
Rodenbeck, Caroline	Inealastic electron scattering in tritium gas and ppm-precise energy scale at the KATRIN experiment	2023
Simon-Nis Peters	Purification and characterization studies of TMBi for a novel PET-detector concept	2023
Schulte, Denny	Development, construction and commissioning of a novel cryogenic distillation system for radon removal to a sub-µBq/kg level in the XENONnT dark matter experiment	2022
Axel Buß	Development of Fluorescence Detectors for Laser Spectroscopy Experiments at GSI/FAIR, and Measurement of the Hyperfine Transitions between the 2^3P and 2^3S States in Helium-like Boron	2021
Winzen, Daniel	Laser spectroscopy of lithium-like carbon with a novel XUV detection system at the ESR and construction of a precision high-voltage divider for the CRYRING@ESR electron cooler	2021
Fulst, Alexander	A novel quasidifferential method for MAC-E-Filters and determination and control of the electric potentials of the KATRIN Experiment with a stablized condensed krypton source and a UV illumination system	2020
Wittweg, Christian	Background modelling for XENON1T, search for double EC decays of Xe-124 and investigation of inelastic neutrino nucleus scattering in xenon	2020
Sack, Rudolf	Measurement of the energy loss of 18.6 keV electrons on deuterium gas and determination of the tritium Q-value at the KATRIN experiment	2020
Fedkevych (nee Kostina), Mariia	Calibration and background reduction of the KATRIN experiment	2020
Rest, Oliver	Precision high voltage at the KATRIN experiment and new methods for an absoute calibration at ppm-level for high-voltage dividers	2019
Vargas, Miguel Angel	Data analysis in the XENON1T Dark Matter Experiment	2019
Dyba, Stephan	Background reduction by the inner wire electrode and set-up of the condensed krypton source at the neutrino mass experiment KATRIN	2019
Murra, Michael	Intrinsic background reduction by cryogenic distillation for the XENON1T dark matter experiment	2019
Fieguth, Alexander	First observation of double electron capture of Xe-124 and detection prospects for the underlying nuclear interaction mechanisms in direct dark matter search	2018
Nicholas M. N. Steinbrink	Beyond-Standard Model Neutrino Physics Sensitivity with KATRIN	2017
Behrens, Jan David	Design and commissioning of a monoenergetic photoelectron source and active background reduction by magnetic pulse at the KATRIN experiment	2017
Jonas Vollbrecht	Lifetime analysis of the HFS states in hydrogen- und lithium-like bismuth and development of an in-beam detection system for extreme UV photons	2016
Rosendahl, Stephan	Gas purification of the XENON dark matter search	2015
Zacher, Michael	High-field electrodes design and an angular-selective photoelectron source for the KATRIN spectrometers	2015
Levy, Cecilia	Light Propagation and Reflection off Teflon in Liquid Xenon Detectors for the XENON100 and XENON1T Dark Matter Experiments	2014
Bokeloh, Karen, geb. Hugenberg	„Calibration of hot and cold dark matter experiments: An angular-selective photoelectron source for the KATRIN experiment and an apparatus to determine the reflection properties of PTFE for vacuum UV light	2013
Bauer, Stephan	Energiekalibration und -stabilitätskontrolle des KATRIN-Experiments	2013
Jöhren, Raphael	Spectroscopy of the hyperfine transition in lithium-like bismuth at the ESR at GSI and an APD-based single-photon detector for laser spectroscopy on highly charged ions	2013
Friedag, Peter	Setup and calibration of a position sensitive microchannel plate detector and analysis of a test run optimizing the WITCH experiment	2013
Zboril, Miroslov	Feste Elektronenquellen für die Energieskalaüberwachung im KATRIN Experiment	2011
Hillen, Björn	Untersuchung von Methoden zur Unterdrückung des Spektrometeruntergrunds beim KATRIN Experiment	2011
Prall, Matthias	Background Reduction of the KATRIN Spectrometers: Transmission Function of the Pre-Spectrometer and Systematic Tests of the Main-Spectrometer Wire Electrode	2011
Valerius, Kathrin Martha	Spektrometeruntergrund und seine Unterdrückung beim KATRIN Experiment	2009
Ostrick, Beatrix	Eine kondensierte 83mKr-Kalibrationsquelle für das KATRIN-Experiment	2009
Thümmler, Thomas	Präzisionsüberwachung und Kalibration der Hochspannung für das KATRIN-Experiment	2007
Flatt, Björn	Voruntersuchungen zu den Spektrometern des KATRIN-Experiments	2005
Kraus, Christine	Messungen und Gesamtanalyse zur Neutrinomasse am Mainzer Tritium-beta-Experiment	2004

Vorträge
- 2025
- 2024
- 2023
- 2022
- 2021
- 2020
- 2019
- 2018
- 2017
- 2016
- 2015
- 2014
- 2013
- 2012
- 2011
- 2010
- 2009
- 2008
- 2007
- 2006
- 2005
- 2004
- 2003
- 2002
2025
- Weinheimer, Christian 2025: “Neutrinos in the Standard Model ”. Summer School on Neutrino Physics Beyond the Standard Model, Straßburg, 02.07.2025.
- Weinheimer, Christian 2025: “Addressing Fundamental Questions with Astroparticle Physics at Low Energy ”. Physikalisches Kolloquium, Johannes Gutenberg Universität Mainz, 03.06.2025.
- Weinheimer, Christian 2025: „Neutrinos: Teilchen, die durch Wände fliegen“. Kinder-Uni, Anne-Frank-Gymnasium Werne, 14.03.2025.
- Weinheimer, Christian 2025: “Direct neutrino mass search with the KATRIN experiment and beyond ”. 61st International Winter Meeting on Nuclear Physics, Bormio, 29.01.2025.
2024
- Christian Weinheimer 2024: “XENONnT: in search for dark matter and more”. Particle and Astroparticle Physics Colloquium, RWTH Aachen, RWTH Aachen, 19.11.2024.
- Weinheimer, Christian 2024: „Mysteriöse Neutrinos und Dunkle Materie - Mit Laborexperimenten den Geheimnissen des Universums auf der Spur“. Astroseminar 2024, Universität Münster, 18.10.2024.
- Weinheimer, Christian 2024: “Reduction of radon in xenon-based experiments to search for rare events ”. Low Radioactivity Techniques (LRT2024), IX Workshop, Krakau, 03.10.2024.
- Weinheimer, Christian 2024: “Addressing Fundamental Questions with Astroparticle Physics at Low Energy ”. Physikalisches Kolloquium, Bergische Universität Wuppertal, 22.04.2024.
- Weinheimer, Christian 2024: “Fundamental questions and the ways of finding answers with low energy astroparticle physics”. Closing Ceremony of the RTG 2044, Universität Freiburg, 02.03.2024.
- Weinheimer, Christian 2024: “Search for the absolute neutrino mass scale”. International Symposium on Neutrino Physics and Beyond (NPB 2024), Hongkong, Hong Kong University of Science and Technology (HKUST), 19.02.2024.
2023
Weinheimer, Christian 2023: “Neutrino mass measurements & neutrinoless double beta decay ”. 13th ICFA Seminar: Future Perspectives in High Energy Physics, Deutsches Elektronsynchrotron DESY, Hamburg, 28.11.2023.
Weinheimer, Christian 2023: „Eine Reise zu den Sternen “. Erzähl mir vom Himmel, Philipp-Nicolai-Haus , Münster, 17.11.2023.
Weinheimer, Christian 2023: “Removing 222Rn from xenon for large-scale rare event searches ”. Workshop on Xenon Detector 0nbb Searches, Steps Towards the Kilotonne Scale, Stanford Linear Collider Center and virtual, 25.10.2023.
Weinheimer, Christian 2023: “Chances by Time of Flight ”. Quantum Sensors for KATRIN, Karlsruhe Institute for Technology, 05.10.2023.
Althüser, Lutz; Weinheimer, Christian 2023: “Low radon and low internal radioactivity for dark matter and rare event xenon detectors – the ERC Advanced Grant project LowRad”. Symposium LowRad (Low Radon in Dark Matter and Neutrino Experiments), Center of Soft Nanoscience, Universität Münster, 29.06.2023.
Weinheimer, Christian 2023: “ Purifying xenon from radioactive noble gases”. International Workhop on Applications of Noble Gas Xenon to Science and Technology XeSAT2023, Nantes, 08.06.2023.
Weinheimer, Christian 2023: “Das Neutrinomasseneperiment KATRIN”. GSI-FAIR Kolloquium, GSI Darmstadt , 25.04.2023.
Weinheimer, Christian 2023: “The dark matter experiment XENONnT and first WIMP results”. Institute for Nuclear and Particle Astrophysics Seminar, Lawrence Berkeley National Laboratory, 14.04.2023.
Weinheimer, Christian 2023: “The neutrino mass experiment KATRIN”. Applied Physics/Physics Colloquium, Stanford University, 11.04.2023.
Weinheimer, Christian 2023: “The dark matter experiment XENONnT and first WIMP results ”. Nuclear and Particle Seminar, Carnegie Mellon University, Pittsburgh, 07.04.2023.
Weinheimer, Christian 2023: “The dark matter experiment XENONnT and first WIMP results”. COSMS Colloquium, University of North Carolina, 05.04.2023.
Weinheimer, Christian 2023: “The neutrino mass experiment KATRIN”. Physics Colloquium, Columbia University New York, 03.04.2023.
Weinheimer, Christian 2023: “Background at the KATRIN experiment and novel mitigation methods”. Arbeitstreffen Kernphysik, Schleching, 25.02.2023.
2022
Weinheimer, Christian 2022: “Strong and weak interaction – from hadrons via neutrinos to dark matter”. Mafihe - jDPG Exchange, Universität Münster, 01.09.2022.
Weinheimer, Christian 2022: “Neutrino mass and nature”. International Conference on High Energy Physics (ICHEP 2022), Bologna, 11.07.2022.
Weinheimer, Christian 2022: “Sub-eV neutrino mass limit from KATRIN”. SMI Seminar on fundamental interactions and symmetries, Stefan Meyer Institute, Vienna, 15.06.2022.
Weinheimer, Christian 2022: “Sub-eV neutrino mass limit from KATRIN”. Großes Physikalisches Kolloquium, Köln, 17.05.2022.
Weinheimer, Christian 2022: “Low radon and low internal radioactivity for dark matter and rare event xenon detectors LowRad”. ERC Advanced Grant interview (virtual), Brussels, 23.02.2022.
2021
Christian Weinheimer 2021: “Sub-eV neutrino mass limit from KATRIN”. HISKP Colloquium, University of Bonn, Germany, 07.12.2021.
Christian Weinheimer 2021: “Auf der Suche nach der mysteriösen Dunklen Materie”. Rotary Club Remagen-Sinzig, Breisig, Deutschland, 09.11.2021.
Christian Weinheimer 2021: “Understanding Neutrino Properties, and their Mass Measurement”. Particle Physics Seminar, University of Birmingham, England, 03.11.2021.
Christian Weinheimer 2021: “Reducing the KATRIN‘s background by an active transverse energy filter”. HighRR Lecture Week, Heidelberg, Germany, 28.09.2021.
Christian Weinheimer 2021: “Highlights from Neutrino Physics Experiments”. International Conference of the European Physical Society on High Energy Physics EPS HEP2021, DESY - virtual, 30.07.2021.
Christian Weinheimer 2021: „Auf der Suche nach der mysteriösen Dunklen Materie“. International Conference of the European Physical Society on High Energy Physics EPS HEP2021 - Public Evening Lecture, DESY - virtual, 28.07.2021.
Christian Weinheimer 2021: “Results from the dark matter experiment XENON1T and status of XENONnT”. DESY Physics Colloquium Zeuthen, DESY Zeuthen - virtual, 14.04.2021.
Christian Weinheimer 2021: “Purification, cryogenics, infrastructure and integration for noble liquids”. ECFA Detector R&D Roadmap, Symposium TF2 Liquid Detectors, virtual, 09.04.2021.
2020
Christian Weinheimer 2020: “Auf der Jagd nach der Neutrinomasse – erste Resultate von KATRIN”. Wilhelm-Foerster-Sternwarte Berlin, Wissenschaft Live, Berlin, Germany, 14.11.2020.
Christian Weinheimer 2020: “Suche nach Dunkler Materie mit XENON und westfälischer Brennerei-Kunst ”. Astroseminar, University of Muenster, Germany, 24.10.2020.
Christian Weinheimer 2020: “First results from the neutrino mass experiment KATRIN”. Conference on Neutrinos and Nuclear Physics CNNP 2020, South Africa, 24.02.2020.
Christian Weinheimer 2020: “Weighing the neutrinos - first results from the KATRIN experiment”. Colloquium, Physics Department, University of Cape Town, South Africa, 19.02.2020.
Christian Weinheimer 2020: “First results from the neutrino mass experiment KATRIN”. Colloquium, Nikhef, Amsterdam, The Netherlands, 05.02.2020.
Christian Weinheimer 2020: “First results from the neutrino mass experiment KATRIN”. Physics Colloquium, University of Freiburg, Germany, 20.01.2020.
Weinheimer, Christian 2020: “First results from the neutrino mass experiment KATRIN”. Physics Colloquium, DESY Zeuthen, 15.01.2020.
Christian Weinheimer 2020: “First results from the neutrino mass experiment KATRIN”. Particle and Astroparticle Physics Colloquium DESY, Hamburg, Germany, 14.01.2020.
2019
Christian Weinheimer 2019: “First results from the neutrino mass experiment KATRIN”. Colloquium Gran Sasso Scientific Institute, Assergi, Italy, 11.12.2019.
Christian Weinheimer 2019: “First results from the neutrino mass experiment KATRIN”. Physics Colloquium, RWTH, Aachen, Germany, 09.12.2019.
Christian Weinheimer 2019: “First results from the neutrino mass experiment KATRIN”. Physics Colloquium, TUM+LMU, Munich, Germany, 25.11.2019.
Christian Weinheimer 2019: “First results from the neutrino mass experiment KATRIN”. PRISMA Colloquium, University of Mainz, Germany, 20.11.2019.
Christian Weinheimer 2019: “Direkte Suche nach Dunklen Materie in unserer Milchstraße”. Albachtener Gespräche, Muenster-Albachten, Germany, 14.11.2019.
Christian Weinheimer 2019: “The search for the neutrino mass”. Ceremonial Colloquium in Memoriam of Prof. Dr. rer. nat. Dr. h.c. Ernst-Wilhelm Otten, University of Mainz, Germany, 05.11.2019.
Christian Weinheimer 2019: “Neutrinos and Dark Matter in Astrophysics”. Conference Nuclear Physics in Astrophysics IX, Castle Waldthausen, Germany, 20.09.2019.
Christian Weinheimer 2019: “KATRIN motivation - neutrino masses in cosmology and particle physics”. KATRIN Colloquium – First Results on the Neutrino Mass, Karlsruher Institute of Technology, Germany, 16.09.2019.
Christian Weinheimer 2019: “Time-of-flight methods at KATRIN”. 698th WE Heraeus-Seminar „Massive Neutrinos" Physikzentrum, Bad Honnef, Germany, 10.07.2019.
Christian Weinheimer 2019: “Karlsruhe tritium neutrino mass experiment KATRIN -- Time-of-flight upgrade for KATRIN”. Seminar, Leibniz-IPHT, Jena, Germany, 05.07.2019.
Christian Weinheimer 2019: “Neutrino Physics: Experiments, the Dark Side of the Universe”. ISAPP School, MPIK, Heidelberg, Germany, 29.05.2019.
Christian Weinheimer 2019: “Search for dark matter with XENON1T/nT”. Physics Colloquium , Siegen, Germany, 11.04.2019.
Christian Weinheimer 2019: “Search for dark matter and other rare/exotic processes with XENON1T/nT”. Spring Meeting of the German Physical Society, devision Hadrons and Nuclei, Munich, Germany, 18.03.2019.
Christian Weinheimer 2019: “In search for the neutrino mass”. Physics Colloquium, Weizmann Institute for Sciences, Israel, 14.02.2019.
2018
Christian Weinheimer 2018: “Hunting dark matter”. TEDx Into the unknown, Municipal Theatre, Municipal Theatre Muenster, Germany, 02.11.2018.
Christian Weinheimer 2018: “Neutrino mass measurements”. European Neutrino „Town“ Meeting and ESPP 2018 discussion, CERN, Geneve, Suisse, 22.10.2018.
Christian Weinheimer 2018: “Karlsruhe tritium neutrino mass experiment KATRIN--Differential spectroscopy at KATRIN”. Kryo 2018, Heidelberg, Germany, 07.10.2018.
Christian Weinheimer 2018: “KATRIN's long journey - spectrometer and detector: achievements, KATRIN Inauguration”. KATRIN Inauguration, Karlsruher Institute of Technology, Germany, 12.06.2018.
Christian Weinheimer 2018: “Hunting for dark matter in the universe”. Münster's knowledge freshly tappped, Excellence Cluster Cells in Motion, Restaurant Rossini, Muenster, Germany, 14.05.2018.
Christian Weinheimer 2018: “Verwandlungskünstler Neutrino - Nobelpreis für Physik 2015”. Physik zur Mittagszeit, Fürstenberghaus, University of Muenster, Germany, 05.05.2018.
Christian Weinheimer 2018: “Searching for hot and cold dark matter”. 23rd Symposium on Astroparticle Physics , Driebergen, The Netherlands, 22.03.2018.
Christian Weinheimer 2018: “Search for Dark Matter”. Spring meeting of the German Physical Society, Wuerzburg, Germany, 19.03.2018.
Christian Weinheimer 2018: “Neutrinos: Teilchen, die durch Wände fliegen”. Kinder-Uni, Annette-von-Droste-Hülshoff Gymnasium), Dülmen, Germany, 02.03.2018.
Christian Weinheimer 2018: “Direct neutrino mass search”. 56th International Winter Meeting on Nuclear Physics, Bormio, 22.01.2018.
2017
Christian Weinheimer 2017: “The direct neutrino mass search with KATRIN”. Conference on Neutrino and Nuclear Physics CNNP, Catania, Italy, 15.10.2017.
Christian Weinheimer 2017: “Neutrino oscillation & neutrino physics, 4 lectures”. Graduate School KSETA, Karlsruhe, Germany, 21.09.2017.
Christian Weinheimer 2017: “Ghostbusters - Hunting & understanding neutrinos, WIMPs and other ghost particles”. Festkolloquium, Max Planck Institute for Nuclear Physics, Heidelberg, Germany, 14.09.2017.
Christian Weinheimer 2017: “Absolute Neutrino Mass”. Int. Conference Topics in Astroparticle and Underground Physics (TAUP), Sudbury, Canada, 24.07.2017.
Christian Weinheimer 2017: “The quest for the neutrino mass”. ILL seminar, Grenoble, France, 13.07.2017.
Christian Weinheimer 2017: “The quest for the neutrino mass”. Physics Colloquium, University of Mainz, Germany, 13.06.2017.
Christian Weinheimer 2017: “Search for dark matter with XENON1T”. Annual Conference of the Interdisciplinary Center for Clinical Research of the University , University of Muenster, Germany, 22.05.2017.
Christian Weinheimer 2017: “Das Standardmodell der Teilchenphysik und darüber hinaus”. Fürstenberg Gymnasium , Recke, Germany, 16.02.2017.
Christian Weinheimer 2017: “Search for dark matter with XENON1T”. Physical colloquium, University of Wuppertal, Germany, 23.01.2017.
Christian Weinheimer 2017: “KATRIN: direct search for the neutrino mass scale - Request to prolongate status as CERN RE14”. CERN Recognized Experiment Committee, Geneve, Suisse, 19.01.2017.
Christian Weinheimer 2017: “Direct search for the neutrino mass scale: the KATRIN experiment”. Physics Colloquium, University of Heidelberg, Germany, 13.01.2017.
2016
Christian Weinheimer 2016: “Wandelbare Geisterteilchen: Entdeckung der Neutrinooszillationen und die Suche nach Neutrinomassen”. Westfälische Volkssternwarte und Planetarium, Recklinghausen, Germany, 07.09.2016.
Christian Weinheimer 2016: “Neutrino Physics”. 6 lectures/exercise classes at the Giersch International Symposium, Frankfurt Institute for Advanced Studies, Frankfurt, Germany, 01.09.2016.
Christian Weinheimer 2016: “Determination of the absolute electron (anti) neutrino mass”. ECT Workshop, Trento, Italy, 04.08.2016.
Christian Weinheimer 2016: “The KATRIN experiment and next-generation tritium beta decay experiments for keV-scale sterile neutrinos”. The Chalonge de Vega 20th Paris Cosmology Colloquium, Paris, France, 20.07.2016.
Christian Weinheimer 2016: “Wandelbare Geisterteilchen: Entdeckung der Neutrinooszillationen und die Suche nach Neutrinomassen”. University Club, Bonn, Germany, 27.06.2016.
Christian Weinheimer 2016: “Licht ins Dunkle bringen - Suche nach Dunkler Materie mit XENON1T im Untergrundlabor Gran Sasso”. Planetarium, Muenster, Germany, 03.05.2016.
Christian Weinheimer 2016: “Neutrinos - a window to new physics, Plenary talk”. Spring Meeting of the German Physical Society DPG, division Hadrons and Nuclei, , Darmstadt, Germany, 14.03.2016.
Christian Weinheimer 2016: “Direct search for the neutrino mass scale: KATRIN and beyond”. 47. Arbeitstreffen Kernphysik, Schleching, Germany, 18.02.2016.
Christian Weinheimer 2016: “Wandelbare Geisterteilchen: Entdeckung der Neutrinooszillationen und die Suche nach Neutrinomassen”. 24. Bad Honnef Industry Dialogue, Physical Department, Bad Honnef, Germany, 27.01.2016.
2015
Christian Weinheimer 2015: “Neutrinos: Teilchen, die durch Wände fliegen”. WWU Children's University Kreis Unna, Bürgerhaus Selm, Selm, Germany, 04.12.2015.
Christian Weinheimer 2015: “Physik-Nobelpreis 2015: Entdeckung der Neutrinooszillationen”. Physics Colloquium, University of Muenster, Germany, 03.12.2015.
Christian Weinheimer 2015: “Direct Search for the Neutrino Mass and the KATRIN experiment”. LNGS Seminar, Assergi, Italy, 20.09.2015.
Christian Weinheimer 2015: “Neutrino Physics, 2 lectures at retreat”. Cluster of Excellence Cluster PRISMA and Graduate School Symmetry Breaking, Bad Kreuznach, Germany, 16.09.2015.
Christian Weinheimer 2015: “Direct nu-mass search, 2 lectures”. VI International Pontecorvo Neutrino Physics School, High Tatra, Slovakia, 27.08.2015.
Christian Weinheimer 2015: “The neutrino mass scale: Where do we go?” EPS-HEP 2015, Vienna, Austria, 22.07.2015.
Christian Weinheimer 2015: “Direct Search for the Neutrino Mass and the KATRIN experiment”. Particle Physics Seminar, Universität Bonn, Bonn, Germany, 09.07.2015.
Christian Weinheimer 2015: “Fast kein Licht – Nachweis einzelner Photonen, Internationales Jahr des Lichts”. Öffentliche Vortragsreihe des Fachbereichs Physik, University of Muenster, Germany, 17.06.2015.
Christian Weinheimer 2015: “Direct Dark Matter Search with XENON100 and XENON1T”. 25th International Workshop on Weak Interactions and Neutrinos (WIN2015), MPIK Heidelberg, Germany, 08.06.2015.
Christian Weinheimer 2015: “Direct Search for the neutrino mass: the KATRIN experiment”. DPG Spring conference, Heidelberg, Germany, 23.03.2015.
Christian Weinheimer 2015: “Direct Search for the Neutrino Mass and the KATRIN experiment”. PSI Kolloquium, Villingen, Germany, 19.03.2015.
Christian Weinheimer 2015: “Präzisionshochspannung in der Teilchenphysik: Die KATRIN-Spannungsteiler”. 288. Seminar PTB: HVDC -Erzeugung, Messung und Anwendungen , Braunschweig, Germany, 24.02.2015.
2014
Christian Weinheimer 2014: “Direct Neutrino Mass Measurement Present and Future”. Prospects in Neutrino Physics, London, England, 15.12.2014.
Christian Weinheimer 2014: “Direct Search for the Neutrino Mass and the KATRIN experiment”. Physical colloquium, Technical Unversity of Darmstadt, Germany, 12.12.2014.
Christian Weinheimer 2014: “Neutrino Mass - from the Mainz Experiment to KATRIN’, An Expedition to Terra Incognita in Atomic, Nuclear and Particle Physics”. Festsymposium anlässlich des 80. Geburtstag von Ernst W. Otten, University of Mainz, Germany, 28.10.2014.
Christian Weinheimer 2014: “Direct Search for Dark Matter”. 4 lectures at Schule für Astroteilchenphysik, Bärnfels-Obertrubach, Germany, 08.10.2014.
Christian Weinheimer 2014: “Absolute scale of the active neutrino mass and the search for sterile neutrinos with KATRIN”. Ecole Internationale Daniel Chalonge – The 18th Paris Cosmology Colloquium, Paris, France, 23.07.2014.
Christian Weinheimer 2014: “Neutrino mass and flavour states and neutrino oscillation from an experimental point of view”. EMMI Rapid Reaction Task Force, Jena/Domburg, Germany, 07.07.2014.
Christian Weinheimer 2014: “Status of Tritium-based Neutrino Mass Measurements”. XXVI. Intern. Conf. on Neutrino Physics & Astrophysics (Neutrino 2014), Boston, USA, 02.06.2014.
Christian Weinheimer 2014: “Neutrino mass search”. Seminar über Radio- und Kernchemie, Universtiy of Mainz, Germany, 26.05.2014.
Christian Weinheimer 2014: “Direct Search for the Neutrino Mass and the KATRIN experiment”. Seminar at the Centre de Physique des Particules, Marseille, France, 12.05.2014.
Christian Weinheimer 2014: “Astroparticle Physics”. R-ECFA Meeting, Wissenschaftszentrum, Bonn, Germany, 09.05.2014.
Christian Weinheimer 2014: “Vom Ursprung des Kosmos, Neutrinos und Dunkler Materie”. Pub lecture, Muenster-Roxel, Germany, 27.02.2014.
Christian Weinheimer 2014: “Astroparticle Physics”. KSETA Plenary Workshop, Karlsruher Institute of Technology, Germany, 24.02.2014.
Christian Weinheimer 2014: “Direct Dark Matter Search”. Seminar of graduate college, Physical department, University of Freiburg, Germany, 29.01.2014.
2013
Christian Weinheimer 2013: “Direct measurements of the neutrino mass”. Pontecorvo 100, Pisa, Italy, 28.09.2013.
Christian Weinheimer 2013: “Single Beta Decay and the neutrino mass”. Int. School on NuclearPhysics 2013: Neutrino Physics – Present and Future, Erice, Italy, 16.09.2013.
Christian Weinheimer 2013: “Direct search for dark matter”. 4 lectures at Herbstschule für Hochenergiephysik , Maria Laach, Germany, 11.09.2013.
Christian Weinheimer 2013: “Direct Neutrino Mass Experiments: From Tretyakov-type spectrometers to MAC-E-Filters, from solid tritium sources to windowless gaseous sources Perspectives on Fundamental Symmetries and Neutrinos ”. Mini symposium on the occasion of the 70th birthday of Hamish Robertson, Seattle, USA, 06.09.2013.
Christian Weinheimer 2013: “Absolute scale of the active neutrino mass and search for sterile neutrinos”. Ecole Intern. Daniel Chalonge, 17th Paris Cosmology Colloquium,, Paris, France, 24.07.2013.
Christian Weinheimer 2013: “Direct search for dark matter”. Helmholtz Alliance for Astropartice Physics HAP, Dark Matter, Muenster, Germany, 18.02.2013.
Christian Weinheimer 2013: “Direct neutrino mass experiments”. NuMass2013, Mailand, Italy, 04.02.2013.
Christian Weinheimer 2013: “Direct search for dark matter”. Physical colloquium, Karlsruher Institute of Technology, Germany, 25.01.2013.
Christian Weinheimer 2013: “Direkte Suche nach Dunkler Materie mit dem XENON Experiment”. Physical colloquium, Karlsruher Institute of Technology, Germany, 20.01.2013.
2012
Christian Weinheimer 2012: “Neutrinos - Auf der Spur der Massen der Geisterteilchen”. Westfälische Volkssternwarte und Planetarium , Recklinghausen, Germany, 05.12.2012.
Christian Weinheimer 2012: “Vom Ursprung des Kosmos ”. Katholische Studierenden- und Hochschulgemeinde , Muenster, Germany, 19.11.2012.
Christian Weinheimer 2012: “Warum ist Dunkle Materie dunkel?” Astroseminar , University of Muenster, Germany, 26.10.2012.
Christian Weinheimer 2012: “Neutrinophysik”. 2 lectures at DPG-Lehrerfortbildung 2012 „Teilchenphysik", Physikzentrum (Physics Department) Bad Honnef, Germany, 19.10.2012.
Christian Weinheimer 2012: “Neutrino physics”. 4 lectures at Graduate School 1504 „Mass, Spectra, Symmetry“ Automn Block Course , Berlin, Germany, 09.09.2012.
Christian Weinheimer 2012: “Direct neutrino mass measurements”. V. International Pontecorvo School of Neutrino Physics, Crimea, Ukraine, 06.09.2012.
Christian Weinheimer 2012: “Direct neutrino mass measurements, 2 lectures at UNDERSTANDING NEUTRINOS ”. XXIV. Indian-Summer School, Prague, Czech Republic, 03.09.2012.
Christian Weinheimer 2012: “Neutrino physics”. 4 lectures at the Erasmus Summer School ISSCSMB-12 , Antalya, Turkey, 28.08.2012.
Christian Weinheimer 2012: “Absolute scale of the active neutrino mass and the search of sterile neutrinos”. 16. Paris Cosmology Colloquium, Paris, France, 25.07.2012.
Christian Weinheimer 2012: “Direct dark matter search with the XENON project”. Physical colloquium, Humboldt-University of Berlin, Germany, 03.07.2012.
Christian Weinheimer 2012: “Direct neutrino mass measurements”. 5th Int. Symposium on Symmetries in Subatomatic Physics, Groningen, Netherlands, 18.06.2012.
Christian Weinheimer 2012: “Neutrinos - den Geisterteilchen auf der Spur”. Physical colloquium, University of Bochum, 23.04.2012.
Christian Weinheimer 2012: “Hot, Warm and Cold Dark Matter and other fundamental questions”. Workshop on Perspectives of fundamental physics, MPIK , Heidelberg, Germany, 29.03.2012.
2011
Christian Weinheimer 2011: “Neutrinos - den Geisterteilchen auf der Spur”. Physical colloquium, University of Wuppertal, Germany, 07.11.2011.
Christian Weinheimer 2011: “Neutrino Physics”. several lectures at the Annual Meeting of the graduate college "Physik an Hadronen-Beschleunigern", Breisach, Freiburg, 19.10.2011.
Christian Weinheimer 2011: “Absolute scale of the neutrino mass and search for neutrinoless double beta decay”. Ecole Internat. Daniel Chalonge, Paris, France, 20.07.2011.
Christian Weinheimer 2011: “Suche nach Dunkler Materie: Das XENON-Projekt”. Physical colloquium, University of Erlangen, Germany, 27.06.2011.
Christian Weinheimer 2011: “Direct Neutrino Mass Searches”. several lectures at the ECT* Doctoral Training Programme Neutrino Physics, Trento, Italy, 14.06.2011.
Christian Weinheimer 2011: “Introduction into the FANTOM study week: Dark Matter”. Study Week of the international graduate School FANTOM, Muenster, Germany, 06.06.2011.
Christian Weinheimer 2011: “Searching for the neutrino mass: The KArlsruhe TRItium Neutrino experiment KATRIN”. Physical colloquium, University of Bielefeld, Germany, 30.05.2011.
Christian Weinheimer 2011: “Neutrino physics: present status and future options”. BMBF Strategy Talk Elementary Particle Physics, Gustav-Stresemann-Institut, Bonn, Germany, 26.05.2011.
Christian Weinheimer 2011: “Auf der Suche nach der Neutrinomassenskala: Das Karlsruher Tritium Neutrinoexperiment KATRIN”. Physical colloquium, University of Frankfurt, 04.05.2011.
Christian Weinheimer 2011: “KATRIN - die genaueste Waage der Welt”. Public evening lecture, 42nd Working Meeting on Nuclear Physics, Schleching, Germany, 26.02.2011.
Christian Weinheimer 2011: “KATRIN – die genaueste Waage der Welt”. public evening lecture "42. Arbeitstreffen Kernphysik", Schleching, Germany, 26.02.2011.
Christian Weinheimer 2011: “Direct neutrino mass measurement with KATRIN”. Workshop:The future of neutrino mass measurements, Seattle, USA, 08.02.2011.
2010
Christian Weinheimer 2010: “Direct neutrino mass search beyond 100 meV”. KET Strategy Workshop 2010, Perspectives on Particle Physics, Dortmund, Germany, 25.10.2010.
Christian Weinheimer 2010: “Kosmischer Mikrowellen- und Neutrinohintergrund”. Astroseminar 2010, University of Muenster, Germany, 01.10.2010.
Christian Weinheimer 2010: “Auf der Suche nach der Neutrinomassenskala, das Karlsruher Neutrinomassenexperiment KATRIN”. Physical colloquium, University of Bremen, Germany, 27.05.2010.
Christian Weinheimer 2010: “Dark Matter Methods, current experiments”. Astroparticle Physics in Germany; Status and Perspectives, Physical Colloquium, DESY Zeuthen, Germany, 25.02.2010.
2009
Christian Weinheimer 2009: “The KATRIN Experiment”. LAUNCH 09: Neutrinos and Beyond 09 , Heidelberg, Germany, 09.11.2009.
Christian Weinheimer 2009: “Auf der Suche nach der Neutrinomassenskala: Das Karlsruhe Tritium Neutrinoexperiment KATRIN ”. Physical Colloquium, University of Mainz, Germany, 21.10.2009.
Christian Weinheimer 2009: “Neutrino Physics”. Lecture series at the European Graduate College Giessen-Copenhagen-Torino-Helsinki-Bukarest, Nils Bohr Institute, Copenhagen, Denmark, 28.09.2009.
Christian Weinheimer 2009: “Direct neutrino mass measurements”. DPG Physics School 2009 on Astroparticle Physics, Physics Center, Bad Honnef, Germany, 20.09.2009.
Christian Weinheimer 2009: “Neutrino oscillations with a polarized laser beam: an analogical demonstration experiment ”. Int. School on Nuclear Physics, Erice, Italy, 16.09.2009.
Christian Weinheimer 2009: “Lecture series at the International Summer School Conference on High Energy Physics ”. Standard Model and Beyond ISSCSMB-09 , Akyaka, Turkey, 27.08.2009.
Christian Weinheimer 2009: “Neutrino mass”. XXIV International Symposium on Lepton and Photon Interactions at High Energies, Hamburg, Germany, 17.08.2009.
Christian Weinheimer 2009: “Non-oscillation probes of neutrino masses”. Nufact09 workshop at Fermilab and Illinois Institute of Technology, Chicago, USA, 20.07.2009.
Christian Weinheimer 2009: “Auf der Suche nach der Neutrinomassenskala: Das Karlsruhe Tritium Neutrinoexperiment KATRIN”. Nuclear Physics Colloquium, HISKP, University of Bonn, Germany, 09.07.2009.
Christian Weinheimer 2009: “Direct determination of the neutrino mass”. 434. Wilhelm und Else Heraeus-Seminar „Precision Experiments at Lowest Energies for Fundamental Tests and Constants“ , Bad Honnef, Germany, 15.06.2009.
Christian Weinheimer 2009: “The Karlsruhe Tritium Neutrino Experiment KATRIN”. Tea Colloquium, MPI for Nuclear Physics, Heidelberg, Germany, 07.05.2009.
Christian Weinheimer 2009: “The Karlsruhe Tritium Neutrino Experiment KATRIN”. Colloquium of the Euro Graduate School, University of Gießen, Germany, 23.04.2009.
Christian Weinheimer 2009: “Neutrino mass and oscillations”. Spring Meeting DPG 2009, Hadrons and Nuclei Division , Bochum, Germany, 16.03.2009.
Christian Weinheimer 2009: “Vom Ursprung des Kosmos”. Gesprächskreis Naturwissenschaft und Theologie, Katholoische Akademie Franz-Hitze Haus, Muenster, Germany, 21.02.2009.
2008
Christian Weinheimer 2008: “The Karlsruhe Tritium Neutrino experiment KATRIN ”. New Instruments for Neutrino Relics and Mass , CERN, Suisse, 07.12.2008.
Christian Weinheimer 2008: “In search for the neutrino mass: The KArlsruhe TRItium Neutrino experiment KATRIN ”. High Energy Physics Colloquium, Radboud University, Nijmwegen, Netherlands, 28.11.2008.
2007
Christian Weinheimer 2007: “Fundamentale Wechselwirkungen: Status und Perspektiven”. KHUK Annual Conference, Society for Heavy Ion Research, GSI Darmstadt, Germany, 25.10.2007.
Christian Weinheimer 2007: “Non-accelerator particle physics in Germany”. RECFA Meeting, Berlin, Germany, 05.10.2007.
Christian Weinheimer 2007: “Neutrinoeigenschaften und -oszillationen”. 3 Lectures at the School of Astroparticle Physics at University of Erlangen-Nuernberg, Obertrubach-Baernfels, Germany, 04.10.2007.
Christian Weinheimer 2007: “Direct neutrino mass search - towards the Karlsruhe Tritium Neutrino experiment KATRIN ”. Workshop „The Path to Neutrino Mass", Aarhus, Denmark, 04.09.2007.
Christian Weinheimer 2007: “The Karlsruhe Tritium Neutrino Experiment KATRIN”. Int. Workshop Identification of Dark Matter 2008, Stockholm, Sweden, 18.08.2007.
Christian Weinheimer 2007: “Auf der Suche nach der Neutrinomassenskala: Das Karlsruher Tritium Neutrinoexperiment KATRIN ”. Physical Colloquium, Stuttgart, Germany, 15.05.2007.
Christian Weinheimer 2007: “In search for the neutrino mass: The Karlsruhe tritium neutrino experiment KATRIN”. Symposium of the physics division of the Polish Academy of Sciences, Lodz, Poland, 14.04.2007.
Christian Weinheimer 2007: “KATRIN and MARE: direct neutrino mass experiments”. Launch Workshop, Max-Planck-Institut für Kernphysik, Heidelberg, Germany, 21.03.2007.
Christian Weinheimer 2007: “Current status of tritium neutrino mass experiments”. NeuMa Workshop GSI, Darmstadt, Germany, 08.03.2007.
Christian Weinheimer 2007: “The Karlsruhe Tritium Neutrino experiment KATRIN”. Workshop on Precision Measurements at Low Energy, PSI, Paul Scherrer Institut, Villigen, Switzerland, 18.01.2007.
Christian Weinheimer 2007: “Auf der Suche nach der Neutrinomassenskala: das Karlsruhe Tritium Neutrinoexperiment KATRIN ”. Physical Colloquium, RWTH Aachen, Germany, 08.01.2007.
2006
Christian Weinheimer 2006: “Searching for the neutrino mass scale: The KATRIN experiment”. Seminar on nuclear structure, elementary particle and astrophysics, Basel, Suisse, 07.12.2006.
Christian Weinheimer 2006: “Direct neutrino mass search: The KATRIN experiment”. Seminar at Comenius University, Bratislava, Slovakia, 26.10.2006.
Chrisitan Weinheimer 2006: “Neutrino mass from beta decay”. Neutrino Oscillation Workshop NOW06, Otranto, Lecce, Italy, 09.09.2006.
Christian Weinheimer 2006: “Neutrino mass”. 2nd International Summer School on Astroparticle Physics, 2 lectures, Nijmwegen, Netherlands, 01.06.2006.
Christian Weinheimer 2006: “Auf der Suche nach der absoluten Neutrinomassenskala -Das Karlsruhe Tritium Neutrinoexperiment KATRIN ”. Physical Colloquium, University of Bochum, Germany, 22.05.2006.
Christian Weinheimer 2006: “The KATRIN experiment for the direct determination of the neutrino mass”. Double Beta Decay , Valenia, Spain, 28.04.2006.
Christian Weinheimer 2006: “Auf der Suche nach der absoluten Neutrinomassenskala - Das Karlsruhe Tritium Neutrinoexperiment KATRIN”. Physics Grand Colloquium, University of Koeln, Germany, 18.04.2006.
Christian Weinheimer 2006: “Direct neutrino mass determination - The Karlsruhe Tritium Neutrino Experiment KATRIN”. Physical Colloquium, Technical Unversity of Darmstadt, Germany, 03.02.2006.
Christian Weinheimer 2006: “The Search of the absolute Neutrino Mass Scale - the KArlsruhe TRItium Neutrino Experiment”. Colloquium - Struktur und Dynamik elementarer Materie, University of Frankfurt, Germany, 12.01.2006.
2005
Christian Weinheimer 2005: “Direct Neutrino Mass Experiments: Experimental Status and Projects”. European Town Meeting on Astroparticle Physics, Munich, Germany, 23.11.2005.
Christian Weinheimer 2005: “Neutrinos in the Standard Model”. FANTOM Study Week on Neutrinos in Physics and Cosmology, Muenster, Germany, 14.11.2005.
Christian Weinheimer 2005: “The Search for the Neutrino Mass - the KATRIN Experiment”. Colloquium european graduate college: Complex Systems of Hadrons and Nuclei, Gießen, Germany, 10.11.2005.
Christian Weinheimer 2005: “Neutrino mass from the triton decay”. Lecture at the International School of Nuclear Physics, Erice, Italy, 16.09.2005.
Christian Weinheimer 2005: “Neutrino Physics”. Workshop on Electromagnetic Interactions, Bosen, Germany, 04.09.2005.
Christian Weinheimer 2005: “Klein, aber endlich: Auf der Suche nach der Neutrinomasse”. Physical Colloquium , University of Muenster, Germany, 08.06.2005.
Christian Weinheimer 2005: “Direct Neutrino Mass Measurements”. Lepton Photon, Uppsala, Sweden, 06.06.2005.
Christian Weinheimer 2005: “Neutrino Physics at KATRIN”. FANTOM Symposium, KVI Groningen, Netherlands, 19.05.2005.
Christian Weinheimer 2005: “Auf der Suche nach der Neutrinomassenskala: Das Karlsruher Tritium Neutrinoexperiment KATRIN ”. Colloquium, Institute of Physics, Humboldt-University of Berlin, Germany, 10.05.2005.
Christian Weinheimer 2005: “Auf der Suche nach der Neutrinomassenskala: Das Karlsruher Tritium Neutrinoexperiment KATRIN ”. Particle physics seminar, University of Freiburg, Germany, 04.02.2005.
2004
Christian Weinheimer 2004: “Neutrinooszillationen”. Lecture at the School for Astroparticle Physics SAT, Obertubach-Baernfels, Germany, 06.10.2004.
Christian Weinheimer 2004: “The Direct Neutrino Mass Experiment KATRIN”. Seminar, KVI Groningen, Netherlands, 01.10.2004.
Christian Weinheimer 2004: “Die Lösung des solaren Neutrinorätsels: massive Neutrinos in Teilchen- und Astrophysik”. Volkssternwarte, Bonn, Germany, 30.09.2004.
Christian Weinheimer 2004: “Measuring neutrino properties by tritium experiments”. 7th International Conference on Tritium Science and Technology, Baden-Baden, Germany, 12.09.2004.
Christian Weinheimer 2004: “Absolute Masses of Neutrinos -- Experimental Results and future Possibilities”. Neutrino Physics, Haga Slott, Sweden, 19.08.2004.
Christian Weinheimer 2004: “Auf der Suche nach der Neutrinomassenskala: Vom Mainzer Experiment zu KATRIN”. Physical Colloquium, University of Bielefeld, Germany, 12.07.2004.
Christian Weinheimer 2004: “Auf der Suche nach der Neutrinomassenskala: Vom Mainzer Experiment zu KATRIN”. Institute Seminar of the Institute for Nuclear and Particle Physics, Technical University of Dresden, Germany, 01.07.2004.
Christian Weinheimer 2004: “Searching for the absolute neutrino mass scale”. International Conference Seesaw25, Paris, France, 11.06.2004.
Christian Weinheimer 2004: “Die Lösung des solaren Neutrinorätsels: massive Neutrinos in Teilchen- und Astrophysik”. North Rhine-Westphalian Academy of Sciences and Humanities, Duesseldorf, Germany, 04.06.2004.
Christian Weinheimer 2004: “The direct neutrino mass experiment KATRIN”. GSI Colloquium, Darmstadt, Germany, 25.05.2004.
Christian Weinheimer 2004: “Neutrinos und angeregte Nukleonen -- Bestimmung von Massen und weiteren Eigenschaften”. Nuclear Physics Colloquium, University of Bonn, Germany, 10.05.2004.
Christian Weinheimer 2004: “Bestimmung der Neutrinomasse aus dem Tritium Betazerfall”. Sonderseminar aus Anlass des 60. Geburtstags von Dr. Jochen Bonn, University of Mainz, Germany, 06.05.2004.
Christian Weinheimer 2004: “Neutrinophysik”. 3 Hauptvorträge auf dem Arbeitstreffen "Kernphysik'', Schleching, Germany, 01.03.2004.
2003
Christian Weinheimer 2003: “Auf der Suche nach der Neutrinomassenskala: Vom Mainzer Experiment zu KATRIN”. Physical Colloquium, University of Konstanz, Germany, 04.11.2003.
Christian Weinheimer 2003: “Neutrinomassenmessungen und das KATRIN-Experiment”. Workshop "Cosmology and Neutrino Physics'' of the Research Training Group High Energy Physics and Particle Astrophysics, Karlsruhe, Germany, 29.09.2003.
Christian Weinheimer 2003: “Neutrinomassen-Experimente”. Workshop Astroteilchenphysik in Deutschland: Status und Perspektiven 2003, Karlsruhe, Germany, 17.09.2003.
Christian Weinheimer 2003: “Wie schwer ist das Nichts -- Neutrinomassenmessungen”. DPG School for the Further Training of Physics Teachers, Physics Centre, Bad Honnef, Germany, 29.07.2003.
Christian Weinheimer 2003: “Auf der Suche nach der Neutrinomassenskala: Vom Mainzer Experiment zu KATRIN”. Colloquium on special questions in physics, University of Muenster, Germany, 14.07.2003.
Christian Weinheimer 2003: “Auf der Suche nach der Neutrinomassenskala: Vom Mainzer Experiment zu KATRIN”. Oberseminar Kernphysik, University of Cologne, Germany, 02.07.2003.
Christian Weinheimer 2003: “Auf der Suche nach der Neutrinomassenskala: Vom Mainzer Experiment zu KATRIN”. Physical Colloquium, University of Siegen, Germany, 30.01.2003.
2002
Christian Weinheimer 2002: “Neutrinos: Haben im Universum Leichtgewichte das Sagen?” Inaugural Lecture, Dies Academicus, University of Bonn, Germany, 04.12.2002.
Christian Weinheimer 2002: “The Karlsruhe Neutrino Mass Experiment KATRIN”. Seminar on particle physics, University of Bonn, Germany, 28.11.2002.
Christian Weinheimer 2002: “In search for the neutrino mass scale: From the Mainz Experiment to KATRIN”. Seminar on Nuclear and Particle Physics with Applications, ETH, Zurich, Switzerland, 26.11.2002.
Christian Weinheimer 2002: “In search for the neutrino mass scale: From the Mainz Experiment to KATRIN”. Physics Colloquium, Odense, Denmark, 19.11.2002.
Christian Weinheimer 2002: “In search for the neutrino mass scale: From the Mainz Experiment to KATRIN”. General Physics Colloquium, Groningen, Netherlands, 31.10.2002.
Christian Weinheimer 2002: “Auf der Suche nach der Neutrinomassenskala: Vom Mainzer Experiment zu KATRIN”. Lectures in Experimental Physics, University of Tuebingen, Germany, 22.10.2002.
Christian Weinheimer 2002: “Direct neutrino mass search”. International School on CP violation, Baryogenesis and Neutrinos, Prerow, Germany, 15.09.2002.
Christian Weinheimer 2002: “Review of direct neutrino mass measurements”. International Workshop on the Identification of Dark Matter, York, England, 04.09.2002.
Christian Weinheimer 2002: “The solution of the Solar Neutrino Problem”. Astrophysical colloquium, University of Bonn, Germany, 16.08.2002.
Christian Weinheimer 2002: “Direct neutrino mass search”. International School of Physics "Enrico Fermi'', CLII Course Neutrino Physics, Varenna, Italy, 23.07.2002.
Christian Weinheimer 2002: “Auf der Suche nach der Neutrinomassenskala: Vom Mainzer Experiment zu KATRIN''”. Physikalisches Kolloquium, Bergische Universität , Wuppertal, Germany, 24.06.2002.
Christian Weinheimer 2002: “Auf der Suche nach der Neutrinomassenskala: Vom Mainzer Experiment zu KATRIN”. Physikalisches Kolloquium, Johann Wolfgang von Goethe-Universität, Frankfurt, Germany, 19.06.2002.
Christian Weinheimer 2002: “Direct neutrino mass experiments: Present and Future”. International Conference on Neutrino Physics and Astrophysics Neutrino 2002, Munich, Germany, 29.05.2002.
Christian Weinheimer 2002: “Current tritium beta decay experiments and electromagnetic design of KATRIN”. International Review Panel, Forschungszentrum , Karlsruhe, Germany, 23.05.2002.
Christian Weinheimer 2002: “The neutrino mass direct measurements”. 10th International Workshop on Neutrino Telescopes, Venice, Sweden, 11.03.2002.

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