- Aker, M;
- Altenmüller, K;
- Arenz, M;
- Babutzka, M;
- Barrett, J;
- Bauer, S;
- Beck, M;
- Beglarian, A;
- Behrens, J;
- Bergmann, T;
- Besserer, U;
- Blaum, K;
- Block, F;
- Bobien, S;
- Bokeloh, K;
- Bonn, J;
- Bornschein, B;
- Bornschein, L;
- Bouquet, H;
- Brunst, T;
- Caldwell, TS;
- La Cascio, L;
- Chilingaryan, S;
- Choi, W;
- Corona, TJ;
- Debowski, K;
- Deffert, M;
- Descher, M;
- Doe, PJ;
- Dragoun, O;
- Drexlin, G;
- Dunmore, JA;
- Dyba, S;
- Edzards, F;
- Eisenblätter, L;
- Eitel, K;
- Ellinger, E;
- Engel, R;
- Enomoto, S;
- Erhard, M;
- Eversheim, D;
- Fedkevych, M;
- Felden, A;
- Fischer, S;
- Flatt, B;
- Formaggio, JA;
- Fränkle, FM;
- Franklin, GB;
- Frankrone, H;
- Friedel, F;
- Fuchs, D;
- Fulst, A;
- Furse, D;
- Gauda, K;
- Gemmeke, H;
- Gil, W;
- Glück, F;
- Görhardt, S;
- Groh, S;
- Grohmann, S;
- Grössle, R;
- Gumbsheimer, R;
- Minh, M Ha;
- Hackenjos, M;
- Hannen, V;
- Harms, F;
- Hartmann, J;
- Haußmann, N;
- Heizmann, F;
- Helbing, K;
- Hickford, S;
- Hilk, D;
- Hillen, B;
- Hillesheimer, D;
- Hinz, D;
- Höhn, T;
- Holzapfel, B;
- Holzmann, S;
- Houdy, T;
- Howe, MA;
- Huber, A;
- James, TM;
- Jansen, A;
- Kaboth, A;
- Karl, C;
- Kazachenko, O;
- Kellerer, J;
- Kernert, N;
- Kippenbrock, L;
- Kleesiek, M;
- Klein, M;
- Köhler, C;
- Köllenberger, L;
- Kopmann, A;
- Korzeczek, M;
- Kosmider, A;
- Kovalík, A;
- Krasch, B;
- Kraus, M;
- Krause, H;
- Kuckert, L;
- Kuffner, B;
- Kunka, N;
- Lasserre, T;
- Le, TL;
- Lebeda, O;
- Leber, M;
- Lehnert, B;
- Letnev, J;
- Leven, F;
- Lichter, S;
- Lobashev, VM;
- Lokhov, A;
- Machatschek, M;
- Malcherek, E;
- Müller, K;
- Mark, M;
- Marsteller, A;
- Martin, EL;
- Melzer, C;
- Menshikov, A;
- Mertens, S;
- Minter, LI;
- Mirz, S;
- Monreal, B;
- Guzmán, PI Morales;
- Müller, K;
- Naumann, U;
- Ndeke, W;
- Neumann, H;
- Niemes, S;
- Noe, M;
- Oblath, NS;
- Ortjohann, H-W;
- Osipowicz, A;
- Ostrick, B;
- Otten, E;
- Parno, DS;
- Phillips, DG;
- Plischke, P;
- Pollithy, A;
- Poon, AWP;
- Pouryamout, J;
- Prall, M;
- Priester, F;
- Röllig, M;
- Röttele, C;
- Ranitzsch, PC-O;
- Rest, O;
- Rinderspacher, R;
- Robertson, RGH;
- Rodenbeck, C;
- Rohr, P;
- Roll, Ch;
- Rupp, S;
- Ryšavý, M;
- Sack, R;
- Saenz, A;
- Schäfer, P;
- Schimpf, L;
- Schlösser, K;
- Schlösser, M;
- Schlüter, L;
- Schön, H;
- Schönung, K;
- Schrank, M;
- Schulz, B;
- Schwarz, J;
- Seitz-Moskaliuk, H;
- Seller, W;
- Sibille, V;
- Siegmann, D;
- Skasyrskaya, A;
- Slezák, M;
- Špalek, A;
- Spanier, F;
- Steidl, M;
- Steinbrink, N;
- Sturm, M;
- Suesser, M;
- Sun, M;
- Tcherniakhovski, D;
- Telle, HH;
- Thümmler, T;
- Thorne, LA;
- Titov, N;
- Tkachev, I;
- Trost, N;
- Urban, K;
- Vénos, D;
- Valerius, K;
- VanDevender, BA;
- Vianden, R;
- Hernández, AP Vizcaya;
- Wall, BL;
- Wüstling, S;
- Weber, M;
- Weinheimer, C;
- Weiss, C;
- Welte, S;
- Wendel, J;
- Wierman, KJ;
- Wilkerson, JF;
- Wolf, J;
- Xu, W;
- Yen, Y-R;
- Zacher, M;
- Zadorozhny, S;
- Zbořil, M;
- Zeller, G
We report on the neutrino mass measurement result from the first four-week science run of the Karlsruhe Tritium Neutrino experiment KATRIN in spring 2019. Beta-decay electrons from a high-purity gaseous molecular tritium source are energy analyzed by a high-resolution MAC-E filter. A fit of the integrated electron spectrum over a narrow interval around the kinematic end point at 18.57 keV gives an effective neutrino mass square value of (-1.0_{-1.1}^{+0.9}) eV^{2}. From this, we derive an upper limit of 1.1 eV (90% confidence level) on the absolute mass scale of neutrinos. This value coincides with the KATRIN sensitivity. It improves upon previous mass limits from kinematic measurements by almost a factor of 2 and provides model-independent input to cosmological studies of structure formation.
