S
S. Uozumi
Researcher at Shinshu University
Publications - 9
Citations - 245
S. Uozumi is an academic researcher from Shinshu University. The author has contributed to research in topics: Scintillator & Calorimeter. The author has an hindex of 7, co-authored 9 publications receiving 218 citations.
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Journal ArticleDOI
Development and study of the multi pixel photon counter
S. Gomi,H. Hano,T. Iijima,S. Itoh,Kiyotomo Kawagoe,S. Kim,Takashi Kubota,T. Maeda,T. Matsumura,Y. Mazuka,K. Miyabayashi,H. Miyata,Toshiyuki Murakami,T. Nakadaira,Tsuyoshi Nakaya,Hidetoshi Otono,E. Sano,T. Shinkawa,Y. Sudo,Tohru Takeshita,M. Taguchi,T. Tsubokawa,S. Uozumi,M. Yamaoka,H. Yamazaki,Masashi Yokoyama,Kentaro Yoshimura,Tamaki Yoshioka +27 more
TL;DR: The Multi Pixel Photon Counter (MPPC) as mentioned in this paper is a semiconductor photon sensor which consists of 100-1600 micro APD pixels and each pixel works in limited Geiger mode with an inverse bias voltage around 80 V.
Proceedings ArticleDOI
Development of Multi-Pixel Photon Counters
S. Gomi,M. Taguchi,H. Hano,S. Itoh,Takeo Kubota,T. Maeda,Y. Mazuka,Hidetoshi Otono,E. Sano,Y. Sudo,T. Tsubokawa,M. Yamaoka,H. Yamazaki,S. Uozumi,Tamaki Yoshioka,Toru Iijima,Kiyotomo Kawagoe,Seok Kim,T. Matsumura,K. Miyabayashi,T. Murakami,T. Nakadaira,Tsuyoshi Nakaya,T. Shinkawa,Tohru Takeshita,Masashi Yokoyama,K. Yoshimura +26 more
TL;DR: The multi-pixel photon counter (MPPC) as discussed by the authors is a newly developed photodetector with an excellent photon counting capability, it also has many attractive features such as small size, high gain, low operation voltage and power consumption, and capability of operating in magnetic fields and in room temperature.
Journal ArticleDOI
Validation of GEANT4 Monte Carlo Models with a Highly Granular Scintillator-Steel Hadron Calorimeter
C. Adloff,J. Blaha,J. J. Blaising,C. Drancourt,A Espargilière,R. Gaglione,N. Geffroy,Y. Karyotakis,J. Prast,G. Vouters,K. Francis,Jose Repond,J. Schlereth,J. Smith,J. Smith,Lei Xia,E. Baldolemar,Jiang Li,S. T. Park,M. Sosebee,Andrew White,Jong-Sung Yu,Trygve Buanes,G. Eigen,Y. Mikami,N. K. Watson,Georgios Mavromanolakis,Georgios Mavromanolakis,M. A. Thomson,D. R. Ward,W. Yan,W. Yan,Driss Benchekroun,Abdeslam Hoummada,Y. Khoulaki,John Apostolakis,Andrea Dotti,G. Folger,V. Ivantchenko,V. Uzhinskiy,M. Benyamna,C. Cârloganu,F. Fehr,S. Manen,L. Royer,G. C. Blazey,A.S. Dyshkant,J. G.R. Lima,V. Zutshi,J-Y. Hostachy,L. Morin,U. Cornett,D. David,G. Falley,K. Gadow,P. Göttlicher,C. Günter,B. Hermberg,S. Karstensen,F. Krivan,A. I. Lucaci-Timoce,S. Lu,B. Lutz,S. V. Morozov,V. Morgunov,M. Reinecke,F. Sefkow,P. A. Smirnov,M. Terwort,A. Vargas-Trevino,N. Feege,Erika Garutti,Ivan Marchesini,M. Ramilli,P. Eckert,T. Harion,A. Kaplan,H. Ch Schultz-Coulon,Wei Shen,Rainer Stamen,Burak Bilki,E. Norbeck,Yasar Onel,Graham Wilson,Kiyotomo Kawagoe,P. D. Dauncey,Anne-Marie Magnan,V. Bartsch,V. Bartsch,M. Wing,F. Salvatore,F. Salvatore,E. Calvo Alamillo,M. C. Fouz,J. Puerta-Pelayo,B. Bobchenko,Marina Chadeeva,M. Danilov,A. Epifantsev,Oleg Markin,R. Mizuk,E. Novikov,Vladimir Popov,V. Rusinov,E. Tarkovsky,N. Kirikova,V. Kozlov,Y. Soloviev,P. Buzhan,A. Ilyin,Vadim Kantserov,Vladimir Kaplin,A. Karakash,E. Popova,Vladimir Tikhomirov,C. Kiesling,K. Seidel,Frank Simon,C. Soldner,M. Szalay,M. Tesar,L. Weuste,M. S. Amjad,J. Bonis,S. Callier,S. Conforti Di Lorenzo,P. Cornebise,Ph. Doublet,F. Dulucq,J. Fleury,T. Frisson,N. van der Kolk,Hui Li,G. Martin-Chassard,Francois Richard,Ch. de la Taille,R. Pöschl,L. Raux,J. Rouëné,N. Seguin-Moreau,M. Anduze,V. Boudry,J. C. Brient,Daniel Jeans,P. Mora de Freitas,G. Musat,M. Reinhard,Manqi Ruan,H. Videau,B. Bulanek,J. Zacek,J. Cvach,Petr Gallus,Miroslav Havranek,M. Janata,J. Kvasnicka,D. Lednicky,Michal Marcisovsky,I. Polak,J. Popule,L. Tomášek,M. Tomášek,P. Ruzicka,Petr Sicho,J. Smolik,Vaclav Vrba,J. Zálešák,B. Belhorma,H. Ghazlane,Tohru Takeshita,S. Uozumi,M. Götze,O. Hartbrich,J. Sauer,S. Weber,C. Zeitnitz +175 more
TL;DR: In this article, a prototype of a hadron calorimeter with analog readout is presented, consisting of thirty-eight scintillator layers alternating with steel absorber planes.
Journal ArticleDOI
The time structure of hadronic showers in highly granular calorimeters with tungsten and steel absorbers
C. Adloff,J. J. Blaising,Maximilien Chefdeville,C. Drancourt,R. Gaglione,N. Geffroy,Y. Karyotakis,Iro Koletsou,J. Prast,G. Vouters,Jose Repond,J. Schlereth,Lei Xia,E. Baldolemar,Jiang Li,S. T. Park,M. Sosebee,Andrew White,Jong-Sung Yu,G. Eigen,M. A. Thomson,D. R. Ward,Driss Benchekroun,Abdeslam Hoummada,Y. Khoulaki,John Apostolakis,S. Arfaoui,Mathieu Benoit,Dominik Dannheim,K. Elsener,Gunter Folger,C. Grefe,V. Ivantchenko,M. Killenberg,W. Klempt,E. van der Kraaij,L. Linssen,A. I. Lucaci-Timoce,A. Münnich,Stephane Poss,Alberto Ribon,P. Roloff,Andre Sailer,D. Schlatter,Eva Sicking,J. F. Strube,J. F. Strube,V. Uzhinskiy,C. Cârloganu,S. Manen,L. Royer,U. Cornett,D. David,A. Ebrahimi,G. Falley,N. Feege,K. Gadow,P. Göttlicher,C. Günter,O. Hartbrich,B. Hermberg,S. Karstensen,F. Krivan,K. Kruger,S. Lu,B. Lutz,S. V. Morozov,V. Morgunov,C. Neubüser,M. Reinecke,F. Sefkow,P. A. Smirnov,M. Terwort,Alexis Fagot,Michael Tytgat,N. Zaganidis,J-Y. Hostachy,L. Morin,Erika Garutti,S. Laurien,Ivan Marchesini,M. Matysek,M. Ramilli,K. Briggl,P. Eckert,T. Harion,H. Ch Schultz-Coulon,Wei Shen,Rainer Stamen,Seo Il Chang,A. Khan,D. H. Kim,D. J. Kong,Y. D. Oh,Burak Bilki,Burak Bilki,E. Norbeck,D. Northacker,Yasar Onel,Graham Wilson,Kiyotomo Kawagoe,Y. Miyazaki,Yuji Sudo,H. Ueno,Tamaki Yoshioka,P. D. Dauncey,E. Cortina Gil,S. Mannai,G. Baulieu,P. Calabria,L. Caponetto,C. Combaret,R. Della Negra,R. Eté,G. Grenier,R. Han,J. C. Ianigro,R. Kieffer,Imad Baptiste Laktineh,N. Lumb,H. Mathez,Laurent Mirabito,A. Petrukhin,A. Steen,W. Tromeur,M. Vander Donckt,Y. Zoccarato,J. Berenguer Antequera,E. Calvo Alamillo,M. C. Fouz,J. Puerta-Pelayo,Francois Corriveau,B. Bobchenko,Marina Chadeeva,M. Danilov,A. Epifantsev,Oleg Markin,R. Mizuk,E. Novikov,V. Rusinov,E. Tarkovsky,V. Kozlov,Y. Soloviev,D. Besson,P. Buzhan,A. Ilyin,Vadim Kantserov,Vladimir Kaplin,E. Popova,Vladimir Tikhomirov,M. Gabriel,C. Kiesling,K. Seidel,Frank Simon,C. Soldner,M. Szalay,M. Tesar,L. Weuste,M. S. Amjad,J. Bonis,S. Conforti Di Lorenzo,P. Cornebise,J. Fleury,T. Frisson,N. van der Kolk,Francois Richard,R. Pöschl,J. Rouëné,M. Anduze,Vladislav Balagura,E. Becheva,V. Boudry,J. C. Brient,R. Cornat,M. Frotin,F. Gastaldi,E. Guliyev,Yacine Haddad,Frédéric Magniette,Manqi Ruan,T. H. Tran,H. Videau,S. Callier,F. Dulucq,G. Martin-Chassard,Ch. de la Taille,L. Raux,N. Seguin-Moreau,J. Zacek,J. Cvach,Petr Gallus,Miroslav Havranek,M. Janata,J. Kvasnicka,D. Lednicky,Michal Marcisovsky,I. Polak,J. Popule,L. Tomášek,M. Tomášek,P. Ruzicka,Petr Sicho,J. Smolik,Vaclav Vrba,J. Zálešák,B. Belhorma,H. Ghazlane,K. Kotera,H. Ono,Tohru Takeshita,S. Uozumi,Jong-Seo Chai,H. S. Song,S. H. Lee,M. Götze,J. Sauer,S. Weber,C. Zeitnitz +217 more
TL;DR: In this paper, the intrinsic time structure of hadronic showers is measured on a statistical basis with high spatial and temporal resolution in sampling calorimeters with tungsten and steel absorbers.
Journal ArticleDOI
Performance of the first prototype of the CALICE scintillator strip electromagnetic calorimeter
K. Francis,Jose Repond,J. Schlereth,Jesse S. Smith,Lei Xia,E. Baldolemar,Jiang Li,S. T. Park,M. Sosebee,Andrew White,Jong-Sung Yu,G. Eigen,Y. Mikami,N. K. Watson,M. A. Thomson,D. R. Ward,Driss Benchekroun,Abdeslam Hoummada,Y. Khoulaki,John Apostolakis,Andrea Dotti,Gunter Folger,V. Ivantchenko,Alberto Ribon,V. Uzhinskiy,C. Cârloganu,S. Manen,L. Royer,Michael Tytgat,N. Zaganidis,G. C. Blazey,A.S. Dyshkant,J. G.R. Lima,V. Zutshi,J-Y. Hostachy,L. Morin,U. Cornett,D. David,A. Ebrahimi,G. Falley,K. Gadow,P. Göttlicher,C. Günter,O. Hartbrich,B. Hermberg,S. Karstensen,F. Krivan,K. Kruger,B. Lutz,S. V. Morozov,V. Morgunov,C. Neubüser,M. Reinecke,F. Sefkow,P. A. Smirnov,M. Terwort,Erika Garutti,S. Laurien,S. Lu,Ivan Marchesini,M. Matysek,M. Ramilli,K. Briggl,P. Eckert,T. Harion,H. Ch Schultz-Coulon,Wei Shen,Rainer Stamen,Burak Bilki,E. Norbeck,D. Northacker,Yasar Onel,Graham Wilson,Kiyotomo Kawagoe,Yuji Sudo,Tamaki Yoshioka,P. D. Dauncey,M. Wing,F. Salvatore,E. Cortina Gil,S. Mannai,G. Baulieu,P. Calabria,L. Caponetto,C. Combaret,R. Della Negra,G. Grenier,R. Han,J.-C. Ianigro,R. Kieffer,Imad Baptiste Laktineh,N. Lumb,H. Mathez,Laurent Mirabito,A. Petrukhin,A. Steen,W. Tromeur,M. Vander Donckt,Y. Zoccarato,E. Calvo Alamillo,M. C. Fouz,J. Puerta-Pelayo,Francois Corriveau,B. Bobchenko,Marina Chadeeva,M. Danilov,A. Epifantsev,Oleg Markin,R. Mizuk,E. Novikov,Vladimir Popov,V. Rusinov,E. Tarkovsky,D. Besson,P. Buzhan,A. Ilyin,Vadim Kantserov,Vladimir Kaplin,A. Karakash,E. Popova,Vladimir Tikhomirov,C. Kiesling,K. Seidel,Frank Simon,C. Soldner,L. Weuste,M. S. Amjad,J. Bonis,S. Callier,S. Conforti di Lorenzo,P. Cornebise,Ph. Doublet,F. Dulucq,J. Fleury,T. Frisson,N. van der Kolk,H. Li,G. Martin-Chassard,F. Richard,Ch. de la Taille,Roman Pöschl,L. Raux,J. Rouëné,N. Seguin-Moreau,M. Anduze,V. Balagura,Vincent Boudry,J. C. Brient,R. Cornat,M. Frotin,F. Gastaldi,E. Guliyev,Y. Haddad,Frédéric Magniette,G. Musat,Manqi Ruan,T. H. Tran,H. Videau,B. Bulanek,J. Zacek,J. Cvach,Petr Gallus,Miroslav Havranek,M. Janata,J. Kvasnicka,D. Lednicky,Michal Marcisovsky,I. Polak,J. Popule,L. Tomášek,M. Tomášek,P. Ruzicka,Petr Sicho,J. Smolik,Vaclav Vrba,J. Zálešák,B. Belhorma,H. Ghazlane,K. Kotera,H. Ono,Tohru Takeshita,S. Uozumi,Daniel Jeans,Shih-Fu Chang,A. Khan,Daijin Kim,D. J. Kong,Y. D. Oh,M. Götze,J. Sauer,S. Weber,C. Zeitnitz +191 more
TL;DR: In this article, the first prototype of a scintillator strip-based electromagnetic calorimeter was built, consisting of 26 layers of tungsten absorber plates interleaved with planes of 45×10×3 mm3 plastic scintillation strips.