S
Sanshiro Enomoto
Researcher at University of Washington
Publications - 109
Citations - 9831
Sanshiro Enomoto is an academic researcher from University of Washington. The author has contributed to research in topics: Neutrino & KATRIN. The author has an hindex of 32, co-authored 95 publications receiving 8542 citations. Previous affiliations of Sanshiro Enomoto include University of Tokyo & Tohoku University.
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KamLANDでの原子炉反ニュートリノの3フレーバ振動解析からのθ 13 への制限
A. Gando,Y. Gando,K Ichimura,H. Ikeda,Kunio Inoue,Y Kibe,Yuji Kishimoto,M. Koga,Y Minekawa,T. Mitsui,T Morikawa,N Nagai,K Nakajima,K. Nakamura,K Narita,I. Shimizu,Y Shimizu,J. Shirai,F. Suekane,A. Suzuki,H Takahashi,N Takahashi,Y. Takemoto,K. Tamae,Hideki Watanabe,B D Xu,H Yabumoto,Hidetomo Yoshida,S. Yoshida,Sanshiro Enomoto,A. Kozlov,H Murayama,C Grant,G Keefer,A. Piepke +34 more
Measurement of the Double-Beta Decay Half-life of 136 Xe in KamLAND-Zen
A. Gando,Y. Gando,H. Hanakago,H. Ikeda,Kunio Inoue,R. Kato,M. Koga,S. Matsuda,T. Mitsui,T. Nakada,K. Nakamura,A. Obata,A. Oki,Y. Ono,I. Shimizu,J. Shirai,A. Suzuki,Y. Takemoto,K. Tamae,K. Ueshima,Hideki Watanabe,S. Yamada,Hidetomo Yoshida,A. Kozlov,Sei Yoshida,Ke Han,Y. Efremenko,Werner Tornow,Sanshiro Enomoto +28 more
TL;DR: In this paper, the KamLAND-Zen double-beta decay experiment was conducted with an exposure of 77.6 days with 129 kg of {sup 136}Xe, and the measured two-neutrino double-β decay half-life was T{sup 2{nu}}{sub 1/2} = 2:38 {+-}#6; 0:02(stat)#6, 0.14(syst)#2;x10{sup 21} yr, consistent with a recent measurement by EXO-200.
Journal ArticleDOI
Publisher's Note: Precision Measurement of Neutrino Oscillation Parameters with KamLAND [Phys. Rev. Lett. 100, 221803 (2008)]
S. Abe,T. Ebihara,Sanshiro Enomoto,K. Furuno,Y. Gando,Koichi Ichimura,H. Ikeda,Kunio Inoue,Y. Kibe,Yasuhiro Kishimoto,M. Koga,Yasuhiro Shimizu,A. Kozlov,Y. Minekawa,T. Mitsui,K. Nakajima,K. Nakamura,M. Nakamura,K. Owada,I. Shimizu,J. Shirai,F. Suekane,A. Suzuki,Y. Takemoto,K. Tamae,A. Terashima,Hideki Watanabe,E. Yonezawa,S. Yoshida,J. Busenitz,T. Classen,C. Grant,G. Keefer,David Leonard,D. McKee,A. Piepke,M. P. Decowski,J. A. Detwiler,S. J. Freedman,B. K. Fujikawa,F. Gray,E. Guardincerri,Leon Hsu,R. W. Kadel,C. Lendvai,Kam-Biu Luk,Hitoshi Murayama,T. O'Donnell,H. M. Steiner,Lindley Winslow,D. A. Dwyer,C. Jillings,C. Mauger,R. D. McKeown,Petr Vogel,Chao Zhang,B. E. Berger,C. E. Lane,J. Maricic,T. Miletic,M. Batygov,J. G. Learned,S. Matsuno,Sandip Pakvasa,J. Foster,G. A. Horton-Smith,A. Tang,Steven Dazeley,K. E. Downum,Giorgio Gratta,K. Tolich,W. Bugg,Yu. Efremenko,Yuri Kamyshkov,O. Perevozchikov,Hugon J Karwowski,D. M. Markoff,Werner Tornow,K. M. Heeger,F. Piquemal,J. S. Ricol +80 more
Journal ArticleDOI
Search for Lorentz-invariance violation with the first KATRIN data
M. Aker,D. Batzler,A. Beglarian,J. Behrens,A. I. Berlev,U. Besserer,B. Bieringer,F. Block,S. Bobien,Beate Bornschein,Lutz Bornschein,Markus Boettcher,T. Brunst,T. S. Caldwell,R. M. D. Carney,Suren Chilingaryan,W. Q. Choi,K. Debowski,M. Deffert,M. Descher,D. D. Barrero,P. J. Doe,O. Dragoun,Guido Drexlin,F. Edzards,K. Eitel,E. Ellinger,R. Engel,Sanshiro Enomoto,A. Felden,Joseph A. Formaggio,F. Frankle,G. B. Franklin,F. Friedel,A. Fulst,K. Gauda,Amanda Salomão Gavin,W. Gil,F. Gluck,R. Grossle,R. Gumbsheimer,Volker Hannen,N. Haußmann,K. Helbing,S. Hickford,R. Hiller,D. Hillesheimer,D. Hinz,Tierra Hohn,T. Houdy,A. Huber,A. Jansen,C. Karl,J. Kellerer,M. Kleifges,M. Klein,Carter Kohler,L. Kollenberger,Andreas Kopmann,M. Korzeczek,A. Koval'ik,B. Krasch,H. Krause,L. La Cascio,Thierry Lasserre,T. L. Le,Ondřej Lebeda,B. Lehnert,Alexey Lokhov,M. Machatschek,E. Malcherek,M. Mark,A. Marsteller,E. L. Martin,C. Melzer,Susanne Mertens,Jelloul Mostafa,K.-N. Muller,Holger Neumann,S. Niemes,P. Oelpmann,Diana Parno,A. W. P. Poon,J.M.L. Poyato,Florian Priester,J. R'alivs,Sathyadev Ramachandran,R. G. H. Robertson,Werner Rodejohann,C. Rodenbeck,M. Rollig,C. Rottele,M. Ryvsav'y,Rudolf Sack,Amadeo Saenz,Robert Salomon,Pedro J. Schafer,L. Schimpf,Mackenzie Blair Schlosser,Knud Schlosser,Lorelle Schluter,Sonja Schneidewind,M. Schrank,Alessandro Schwemmer,M. vSefvc'ik,V. Sibille,D. Siegmann,M. Slez'ak,Felix Spanier,M. Steidl,Michael Sturm,H. H. Telle,L. A. Thorne,Thomas Thummler,N. Titov,I. Tkachev,K. Urban,Katrin Valerius,D. V'enos,A. Hern'andez,Ch. Weinheimer,Stefan Welte,J. Wendel,Marianne Marie-Anne van Wetter,J. Wickles,C. Wiesinger,J. F. Wilkerson,J. Wolf,S. Wustling,Jakub Wydra,W. Xu,S. Zadoroghny,G. Zeller +132 more
TL;DR: In this article , the authors focus on the parameters $(a_{\text{of}}^{(3)}){00} , $(a{of}{of}){of{1}{2} ,{3,4,5,6} and{4,6,7,8,9,10,11} which would manifest themselves in a nonisotropic beta-decaying source as a sidereal oscillation and an overall shift of the spectral endpoint.
Journal ArticleDOI
Suppression of Penning discharges between the KATRIN spectrometers
M. Aker,K. Altenmüller,A. Beglarian,J. Behrens,A. I. Berlev,U. Besserer,Klaus Blaum,F. Block,S. Bobien,Beate Bornschein,Lutz Bornschein,H. Bouquet,T. Brunst,T. S. Caldwell,Suren Chilingaryan,W. Q. Choi,K. Debowski,M. Deffert,M. Descher,D. Díaz Barrero,P. J. Doe,O. Dragoun,Guido Drexlin,S. Dyba,K. Eitel,E. Ellinger,R. Engel,Sanshiro Enomoto,D. Eversheim,M. Fedkevych,A. Felden,Joseph A. Formaggio,F. M. Fränkle,G. B. Franklin,H. Frankrone,F. Friedel,A. Fulst,K. Gauda,W. Gil,Ferenc Glück,Steffen Grohmann,R. Grössle,R. Gumbsheimer,M. Hackenjos,Volker Hannen,J. Hartmann,N. Haußmann,F. Heizmann,J. Heizmann,K. Helbing,S. Hickford,D. Hillesheimer,D. Hinz,T. Höhn,Bernhard Holzapfel,S. Holzmann,T. Houdy,A. Jansen,C. Karl,J. Kellerer,N. Kernert,L. Kippenbrock,M. Klein,C. Köhler,L. Köllenberger,Andreas Kopmann,M. Korzeczek,A. Kovalík,B. Krasch,H. Krause,B. Kuffner,N. Kunka,T. Lasserre,L. La Cascio,Ondřej Lebeda,B. Lehnert,J. Letnev,F. Leven,T. L. Le,S. Lichter,A. Lokhov,M. Machatschek,E. Malcherek,A. Marsteller,E. L. Martin,C. Melzer,A. Menshikov,S. Mertens,Benjamin Monreal,K. Müller,U. Naumann,Holger Neumann,S. Niemes,Mathias Noe,H.-W. Ortjohann,A. Osipowicz,Ernst W. Otten,Diana Parno,A. Pollithy,A. W. P. Poon,J. M. L. Poyato,Florian Priester,P. C.-O. Ranitzsch,O. Rest,R. Rinderspacher,R. G. H. Robertson,C. Rodenbeck,P. Rohr,Marco Röllig,C. Röttele,M. Ryšavý,R. Sack,Alejandro Saenz,P. Schäfer,L. Schimpf,K. Schlösser,Magnus Schlösser,L. Schlüter,M. Schrank,B. Schulz,H. Seitz-Moskaliuk,W. Seller,V. Sibille,D. Siegmann,M. Slezák,Felix Spanier,M. Steidl,M. Steven,Michael Sturm,M. Suesser,M. Sun,Denis Tcherniakhovski,H. H. Telle,L. A. Thorne,Thomas Thümmler,N. Titov,Igor Tkachev,N. Trost,K. Valerius,D. Vénos,Reiner Vianden,A. P. Vizcaya Hernández,M. Weber,Ch. Weinheimer,C. Weiss,Stefan Welte,J. Wendel,J. F. Wilkerson,J. Wolf,Sascha Wüstling,W. Xu,Y.-R. Yen,S. Zadoroghny,G. P. Zeller +153 more
TL;DR: In this paper, the authors report on the design and the successful commissioning of the electron catchers and present results on their efficiency in reducing the experimental background, which can intercept on a sub-ms time scale the stored electrons along their magnetron motion paths.