K
Kaori Hattori
Researcher at National Institute of Advanced Industrial Science and Technology
Publications - 139
Citations - 5835
Kaori Hattori is an academic researcher from National Institute of Advanced Industrial Science and Technology. The author has contributed to research in topics: Cosmic microwave background & Detector. The author has an hindex of 34, co-authored 133 publications receiving 5284 citations. Previous affiliations of Kaori Hattori include Kyoto University & Okayama University.
Papers
More filters
Proceedings ArticleDOI
Development and characterization of the readout system for POLARBEAR-2
Darcy Barron,Peter A. R. Ade,Y. Akiba,C. Aleman,Kam Arnold,M. Atlas,Amy N. Bender,Julian Borrill,Julian Borrill,Scott Chapman,Yuji Chinone,Yuji Chinone,A. Cukierman,M. A. Dobbs,Tucker Elleflot,Josquin Errard,Josquin Errard,Giulio Fabbian,Giulio Fabbian,Guangyuan Feng,A. J. Gilbert,N. W. Halverson,Masaya Hasegawa,Masaya Hasegawa,Kaori Hattori,Masashi Hazumi,Masashi Hazumi,Masashi Hazumi,W. L. Holzapfel,Y. Hori,Yuki Inoue,G. Jaehnig,N. Katayama,Brian Keating,Zigmund Kermish,Reijo Keskitalo,Theodore Kisner,Theodore Kisner,M. Le Jeune,Adrian T. Lee,Adrian T. Lee,Frederick Matsuda,Tomotake Matsumura,H. Morii,M. J. Myers,M. Navroli,H. Nishino,Takahiro Okamura,J. Peloton,Gabriel M. Rebeiz,Christian L. Reichardt,Paul L. Richards,Colin Ross,M. Sholl,Praween Siritanasak,Graeme Smecher,Nathan Stebor,Bryan Steinbach,Radek Stompor,Aritoki Suzuki,Jun-ichi Suzuki,Suguru Takada,T. Takakura,T. Takakura,Takayuki Tomaru,B. Wilson,H. Yamaguchi,O. Zahn +67 more
TL;DR: In this paper, the authors present results from testing and characterization of new readout components, integrating these components into a scaled-down readout system for validation of the design and technology.
Journal ArticleDOI
Development of an 8×8 array of LaBr3(Ce) scintillator pixels for a gaseous Compton gamma-ray camera
Shunsuke Kurosawa,Hidetoshi Kubo,Kaori Hattori,C. Ida,Satoru Iwaki,Shigeto Kabuki,Atsushi Kubo,Etsuo Kunieda,Kentaro Miuchi,Tadaki Nakahara,Hironobu Nishimura,Joseph D. Parker,Atsushi Takada,Michiaki Takahashi,Toru Tanimori,K. Ueno +15 more
TL;DR: In this article, an 8×8 array of LaBr 3 (Ce) pixel scintillator pixels with a pixel size of 5.8×5.0mm 3 was developed for an electron-tracking Compton camera.
Journal ArticleDOI
Development of an Electron-Tracking Compton Camera using CF4 gas at high pressure for improved detection efficiency
Michiaki Takahashi,Shigeto Kabuki,Kaori Hattori,N. Higashi,Satoru Iwaki,Hidetoshi Kubo,Shunsuke Kurosawa,Kentaro Miuchi,K. Nakamura,Hironobu Nishimura,Joseph D. Parker,Tatsuya Sawano,Atsushi Takada,Toru Tanimori,Kojiro Taniue,K. Ueno +15 more
TL;DR: In this paper, an Electron-Tracking Compton Camera (ETCC) was developed for medical imaging and MeV gamma-ray astronomy, which consists of a gaseous Time Projection Chamber (TPC) and pixel scintillator arrays.
Journal ArticleDOI
Development of Readout Electronics for POLARBEAR-2 Cosmic Microwave Background Experiment
Kaori Hattori,Y. Akiba,Kam Arnold,Darcy Barron,Amy N. Bender,A. Cukierman,T. de Haan,M. A. Dobbs,Tucker Elleflot,Masaya Hasegawa,Masashi Hazumi,W. L. Holzapfel,Y. Hori,Brian Keating,Akito Kusaka,Aaron Lee,Joshua Montgomery,Kaja Rotermund,I. Shirley,Aritoki Suzuki,Nathan Whitehorn +20 more
TL;DR: In this paper, the authors focus on the readout of transition-edge sensor (TES) bolometers with a large multiplexing factor and show how it affects cross talk and the responsivity of the TES bolometers.
Proceedings ArticleDOI
Optimization of cold resonant filters for frequency domain multiplexed readout of POLARBEAR-2
Kaori Hattori,Y. Akiba,Kam Arnold,Darcy Barron,Amy N. Bender,M. A. Dobbs,Tijmen de Haan,N. L. Harrington,Masaya Hasegawa,Masashi Hazumi,W. L. Holzapfel,Y. Hori,Brian Keating,Adrian T. Lee,Joshua Montgomery,H. Morii,Michael J. Myers,Kaja Rotermund,I. Shirley,Graeme Smecher,Nathan Stebor,Aritoki Suzuki,Takayuki Tomaru +22 more
TL;DR: In this paper, the authors developed read-out electronics for the POLARBEAR-2 CMB experiment, which multiplexes 32-TES bolometers through a single superconducting quantum interface device (SQUID).