Improved Upper Limit on the Neutrino Mass from a Direct Kinematic Method by KATRIN.

M Aker,K Altenmüller,M Arenz, M Babutzka,J Barrett,S Bauer,M Beck,A Beglarian,J Behrens,T Bergmann,U Besserer,K Blaum,F Block,S Bobien,K Bokeloh,J Bonn,B Bornschein,L Bornschein, H Bouquet,T Brunst,T S Caldwell,L La Cascio,S Chilingaryan,W Choi, T J Corona,K Debowski,M Deffert,M Descher,P J Doe,O Dragoun,G Drexlin,J A Dunmore,S Dyba,F Edzards, L Eisenblätter,K Eitel,E Ellinger,R Engel,S Enomoto,M Erhard,D Eversheim,M Fedkevych,A Felden,S Fischer,B Flatt,J A Formaggio,F M Fränkle,G B Franklin, H Frankrone,F Friedel, D Fuchs,A Fulst,D Furse,K Gauda,H Gemmeke,W Gil,F Glück,S Görhardt,S Groh,S Grohmann,R Grössle,R Gumbsheimer,M Ha Minh,M Hackenjos,V Hannen,F Harms,J Hartmann,N Haußmann,F Heizmann,K Helbing,S Hickford,D Hilk, B Hillen,D Hillesheimer,D Hinz,T Höhn,B Holzapfel,S Holzmann,T Houdy,M A Howe,A Huber,T M James,A Jansen,A Kaboth,C Karl,O Kazachenko,J Kellerer,N Kernert,L Kippenbrock,M Kleesiek,M Klein,C Köhler,L Köllenberger,A Kopmann,M Korzeczek,A Kosmider,A Kovalík,B Krasch,M Kraus,H Krause,L Kuckert, B Kuffner,N Kunka,T Lasserre,T L Le,O Lebeda,M Leber,B Lehnert,J Letnev, F Leven, S Lichter,V M Lobashev,A Lokhov,M Machatschek,E Malcherek,K Müller,M Mark,A Marsteller,E L Martin,C Melzer,A Menshikov,S Mertens, L I Minter,S Mirz,B Monreal,P I Morales Guzmán,K Müller,U Naumann, W Ndeke,H Neumann,S Niemes, M Noe,N S Oblath,H-W Ortjohann,A Osipowicz,B Ostrick,E Otten,D S Parno,D G Phillips,P Plischke,A Pollithy,A W P Poon,J Pouryamout, M Prall,F Priester,M Röllig,C Röttele,P C-O Ranitzsch,O Rest, R Rinderspacher,R G H Robertson,C Rodenbeck,P Rohr, Ch Roll,S Rupp,M Ryšavý,R Sack,A Saenz,P Schäfer,L Schimpf,K Schlösser,M Schlösser,L Schlüter, H Schön,K Schönung,M Schrank,B Schulz, J Schwarz,H Seitz-Moskaliuk, W Seller,V Sibille,D Siegmann,A Skasyrskaya,M Slezák,A Špalek,F Spanier,M Steidl,N Steinbrink,M Sturm,M Suesser,M Sun,D Tcherniakhovski,H H Telle,T Thümmler,L A Thorne,N Titov,I Tkachev,N Trost,K Urban,D Vénos,K Valerius,B A VanDevender,R Vianden,A P Vizcaya Hernández,B L Wall,S Wüstling,M Weber,C Weinheimer,C Weiss,S Welte,J Wendel,K J Wierman,J F Wilkerson,J Wolf,W Xu,Y-R Yen, M Zacher, S Zadorozhny,M Zbořil,G Zeller

Physical review letters（2019）

引用 649|浏览13

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摘要

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.

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关键词

neutrino mass,direct kinematic method,upper limit

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