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.
Papers
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Journal ArticleDOI
KamLAND Sensitivity to Neutrinos from Pre-Supernova Stars
K. Asakura,A. Gando,Y. Gando,T. Hachiya,S. Hayashida,H. Ikeda,Kunio Inoue,Kunio Inoue,Koji Ishidoshiro,T. Ishikawa,S. Ishio,M. Koga,M. Koga,S. Matsuda,T. Mitsui,D. Motoki,K. Nakamura,K. Nakamura,S. Obara,T. Oura,I. Shimizu,Y. Shirahata,J. Shirai,A. Suzuki,H. Tachibana,K. Tamae,K. Ueshima,Hideki Watanabe,B. D. Xu,A. Kozlov,Y. Takemoto,Sei Yoshida,Ken-Ichi Fushimi,A. Piepke,A. Piepke,T. I. Banks,T. I. Banks,B. E. Berger,B. E. Berger,B. K. Fujikawa,B. K. Fujikawa,T. O'Donnell,T. O'Donnell,John G. Learned,J. Maricic,S. Matsuno,M. Sakai,Lindley Winslow,Yu. Efremenko,Yu. Efremenko,H. J. Karwowski,H. J. Karwowski,D. M. Markoff,D. M. Markoff,Werner Tornow,Werner Tornow,Werner Tornow,J. A. Detwiler,Sanshiro Enomoto,Sanshiro Enomoto,M. P. Decowski,M. P. Decowski +61 more
TL;DR: In this paper, Asakura et al. showed that the kiloton-scale liquid scintillator detector KamLAND can detect pre-supernova neutrinos from a star with a mass of 25 M ǫ at a distance less than 690 pc with 3σ significance before the supernova.
Journal ArticleDOI
First operation of the KATRIN experiment with tritium
M. Aker,K. Altenmüller,Matthias Arenz,W.-J. Baek,John E. Barrett,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,F. Edzards,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,D. Fuchs,A. Fulst,K. Gauda,W. Gil,Ferenc Glück,Steffen Grohmann,R. Grössle,R. Gumbsheimer,M. Hackenjos,Volker Hannen,J. Hartmann,N. Haußmann,M. Ha Minh,F. Heizmann,J. Heizmann,K. Helbing,S. Hickford,D. Hillesheimer,D. Hinz,T. Höhn,Bernhard Holzapfel,S. Holzmann,T. Houdy,M. A. Howe,A. Huber,A. Jansen,C. Karl,J. Kellerer,N. Kernert,L. Kippenbrock,M. Kleesiek,M. Klein,C. Köhler,L. Köllenberger,Andreas Kopmann,M. Korzeczek,A. Kovalík,B. Krasch,H. Krause,B. Kuffner,N. Kunka,Thierry Lasserre,L. La Cascio,Ondřej Lebeda,Manuel Lebert,B. Lehnert,J. Letnev,F. Leven,T. L. Le,S. Lichter,A. Lokhov,M. Machatschek,E. Malcherek,M. Mark,A. Marsteller,E. L. Martin,F. Megas,C. Melzer,A. Menshikov,Susanne Mertens,Matthias Meier,Sebastian Mirz,Benjamin Monreal,P. I. Morales Guzmán,K. Müller,U. Naumann,Holger Neumann,S. Niemes,Mathias Noe,A. Off,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. Urban,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. V. Zadorozhny,G. P. Zeller +170 more
TL;DR: The first operation of KATRIN with tritium neutrino was reported in 2018, and stable conditions over a time period of 13 days could be established as discussed by the authors.
Journal ArticleDOI
Commissioning of the vacuum system of the KATRIN main spectrometer
M. Arenz,M. Babutzka,M. Bahr,John E. Barrett,S. Bauer,Marcus Beck,A. Beglarian,J. Behrens,T. Bergmann,U. Besserer,J. Blümer,Laura Bodine,K. Bokeloh,J. Bonn,J. Bonn,Beate Bornschein,Lutz Bornschein,S. Büsch,T.H. Burritt,Suren Chilingaryan,T.J. Corona,L. de Viveiros,P. J. Doe,O. Dragoun,Guido Drexlin,S. Dyba,S. Ebenhöch,K. Eitel,E. Ellinger,Sanshiro Enomoto,M. Erhard,D. Eversheim,M. Fedkevych,A. Felden,S. Fischer,Joseph A. Formaggio,F. M. Fränkle,F. M. Fränkle,D. Furse,M. Ghilea,W. Gil,Ferenc Glück,A. González Ureña,S. Görhardt,S. Groh,Steffen Grohmann,R. Grössle,R. Gumbsheimer,M. Hackenjos,Volker Hannen,F. Harms,N. Haußmann,F. Heizmann,K. Helbing,W. Herz,S. Hickford,D. Hilk,B. Hillen,T. Höhn,Bernhard Holzapfel,M. Hötzel,M. A. Howe,A. Huber,A. Jansen,N. Kernert,L. Kippenbrock,M. Kleesiek,M. Klein,Andreas Kopmann,A. Kosmider,A. Kovalík,B. Krasch,M. Kraus,H. Krause,Marcel Krause,L. Kuckert,B. Kuffner,L. La Cascio,Ondřej Lebeda,B. Leiber,J. Letnev,V.M. Lobashev,Alexey Lokhov,E. Malcherek,M. Mark,E. L. Martin,Susanne Mertens,Susanne Mertens,Sebastian Mirz,Benjamin Monreal,K. Müller,M. Neuberger,Holger Neumann,S. Niemes,Mathias Noe,N. S. Oblath,A. Off,H.-W. Ortjohann,A. Osipowicz,Ernst W. Otten,Diana Parno,P. Plischke,A. W. P. Poon,M. Prall,Florian Priester,P. C.-O. Ranitzsch,J. Reich,O. Rest,R. G. H. Robertson,Marco Röllig,S. Rosendahl,S. Rupp,M. Ryšavý,K. Schlösser,Magnus Schlösser,Magnus Schlösser,K. Schönung,M. Schrank,J. Schwarz,W. Seiler,H. Seitz-Moskaliuk,J. Sentkerestiová,A. K. Skasyrskaya,M. Slezák,A. Špalek,M. Steidl,N. Steinbrink,Michael Sturm,M. Suesser,Helmut H. Telle,Helmut H. Telle,Thomas Thümmler,N. Titov,Igor Tkachev,N. Trost,A. Unru,Kathrin Valerius,D. Vénos,Reiner Vianden,S. Vöcking,S. Vöcking,B. L. Wall,N. Wandkowsky,Marc Weber,Ch. Weinheimer,C. Weiss,Stefan Welte,J. Wendel,K. Wierman,J. F. Wilkerson,D. Winzen,Joachim Wolf,Sascha Wüstling,M. Zacher,S. Zadoroghny,M. Zbořil +155 more
TL;DR: Arenz et al. as mentioned in this paper presented the configuration, the commissioning with bake-out at 300◦C, and the performance of this system and demonstrated that the performance is already close to these stringent functional requirements for the KATRIN experiment, which will start at the end of 2016.
Journal ArticleDOI
Precision Analysis of the ^{136}Xe Two-Neutrino ββ Spectrum in KamLAND-Zen and Its Impact on the Quenching of Nuclear Matrix Elements.
A. Gando,Y. Gando,T. Hachiya,M Ha Minh,S. Hayashida,Y. Honda,K. Hosokawa,H. Ikeda,Kunio Inoue,Kunio Inoue,Koji Ishidoshiro,Y. Kamei,K. Kamizawa,Toyohiko Kinoshita,M. Koga,M. Koga,S. Matsuda,T. Mitsui,K. Nakamura,K. Nakamura,Akira Ono,N. Ota,S. Otsuka,H. Ozaki,Y. Shibukawa,I. Shimizu,Y. Shirahata,J. Shirai,Tsugio Sato,K. Soma,A. Suzuki,A. Takeuchi,K. Tamae,K. Ueshima,Hideki Watanabe,D. Chernyak,A. Kozlov,S. Obara,S. Yoshida,Y Takemoto,S. Umehara,Ken-Ichi Fushimi,S. Hirata,B. E. Berger,B. E. Berger,B. K. Fujikawa,B. K. Fujikawa,John G. Learned,J. Maricic,Lindley Winslow,Yu. Efremenko,Yu. Efremenko,Hugon J Karwowski,D. M. Markoff,Werner Tornow,Werner Tornow,T. O'Donnell,J. A. Detwiler,J. A. Detwiler,Sanshiro Enomoto,Sanshiro Enomoto,M. P. Decowski,M. P. Decowski,Javier Fernandez Menendez,R Dvornický,Fedor Šimkovic,Fedor Šimkovic +66 more
TL;DR: An improved formalism for the two-neutrino ββ rate allows us to measure the ratio of the leading and subleading 2νββ nuclear matrix elements (NMEs) and reveals that predicted ξ_{31}^{2ν} values are sensitive to the quenching of NMEs and the competing contributions from low- and high-energy states in the intermediate nucleus.
Journal ArticleDOI
Bound on 3 +1 Active-Sterile Neutrino Mixing from the First Four-Week Science Run of KATRIN
M. Aker,K. Altenmüller,K. Altenmüller,A. Beglarian,J. Behrens,A. I. Berlev,U. Besserer,B. Bieringer,Klaus Blaum,F. Block,Beate Bornschein,Lutz Bornschein,M. Böttcher,T. Brunst,T. Brunst,T. S. Caldwell,T. S. Caldwell,L. La Cascio,Suren Chilingaryan,W. Q. Choi,D. Díaz Barrero,K. Debowski,M. Deffert,M. Descher,P. J. Doe,O. Dragoun,Guido Drexlin,S. Dyba,F. Edzards,F. Edzards,K. Eitel,E. Ellinger,Ralph Engel,Sanshiro Enomoto,M. Fedkevych,A. Felden,Joseph A. Formaggio,F. M. Fränkle,G. B. Franklin,F. Friedel,A. Fulst,K. Gauda,W. Gil,Ferenc Glück,R. Grössle,R. Gumbsheimer,T. Höhn,Volker Hannen,N. Haußmann,K. Helbing,S. Hickford,R. Hiller,D. Hillesheimer,D. Hinz,T. Houdy,T. Houdy,A. Huber,A. Jansen,L. Köllenberger,C. Karl,C. Karl,J. Kellerer,L. Kippenbrock,M. Klein,Andreas Kopmann,M. Korzeczek,A. Kovalík,B. Krasch,H. Krause,Thierry Lasserre,T. L. Le,Ondřej Lebeda,N. Le Guennic,B. Lehnert,Alexey Lokhov,Alexey Lokhov,J. M. Lopez Poyato,K. Müller,M. Machatschek,E. Malcherek,M. Mark,A. Marsteller,E. L. Martin,E. L. Martin,C. Melzer,Susanne Mertens,Susanne Mertens,S. Niemes,P. Oelpmann,A. Osipowicz,Diana Parno,Alan Poon,Florian Priester,Marco Röllig,C. Röttele,O. Rest,R. G. H. Robertson,C. Rodenbeck,M. Ryšavý,R. Sack,Alejandro Saenz,A. Schaller,A. Schaller,P. Schäfer,L. Schimpf,Magnus Schlösser,K. Schlösser,L. Schlüter,L. Schlüter,M. Schrank,B. Schulz,M. Šefčík,H. Seitz-Moskaliuk,V. Sibille,Daniel Siegmann,Daniel Siegmann,M. Slezák,M. Slezák,Felix Spanier,M. Steidl,Michael Sturm,M. Sun,H. H. Telle,Thomas Thümmler,L. A. Thorne,N. Titov,Igor Tkachev,N. Trost,D. Vénos,Kathrin Valerius,A. P. Vizcaya Hernández,Sascha Wüstling,Marc Weber,C. Weinheimer,C. Weiss,Stefan Welte,J. Wendel,J. F. Wilkerson,J. F. Wilkerson,Joachim Wolf,W. Xu,Y.-R. Yen,S. Zadoroghny,G. P. Zeller +143 more
TL;DR: The light sterile neutrino search from the first four-week science run of the KATRIN experiment in 2019 is reported, and new limits supersede the Mainz results and improve the Troitsk bound for m_{4}^{2}<30 eV^{2}.