S
Shingo Kazama
Researcher at Nagoya University
Publications - 100
Citations - 7195
Shingo Kazama is an academic researcher from Nagoya University. The author has contributed to research in topics: Dark matter & Heart failure. The author has an hindex of 25, co-authored 83 publications receiving 5171 citations. Previous affiliations of Shingo Kazama include University of Tokyo & University of Zurich.
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Search for Charginos Nearly Mass-Degenerate with the Lightest Neutralino: Based on a Disappearing-Track Signature in pp Collisions at √s = 8 TeV
TL;DR: In this article, the authors explored the anomaly mediated supersymmetry breaking (AMSB) model by searching for charged winos with their subsequent decays collected with the ATLAS detector at the Large Hadron Collider (LHC).
Journal ArticleDOI
Prognostic Value of Delirium in Patients With Acute Heart Failure in the Intensive Care Unit.
Etsuo Iwata,Toru Kondo,Toshiaki Kato,Takahiro Okumura,Itsumure Nishiyama,Shingo Kazama,Toshikazu Ishihara,Sayano Kondo,Hiroaki Hiraiwa,Takuma Tsuda,Masanori Ito,Morihiko Aoyama,Daisuke Tanimura,Yoshifumi Awaji,Kazumasa Unno,Toyoaki Murohara +15 more
TL;DR: Development of delirium during ICU stay is associated with short- and long-term mortality and is predicted by the severity of heart failure, nursing home residential, and dementia status.
Journal ArticleDOI
Development of a dual-phase xenon TPC with a quartz chamber for direct dark matter searches
K. Sato,Masaki Yamashita,Masaki Yamashita,Koichi Ichimura,Koichi Ichimura,Yoshitaka Itow,Shingo Kazama,Shigetaka Moriyama,Shigetaka Moriyama,Kosuke Ozaki,Takumi Suzuki,Rina Yamazaki +11 more
TL;DR: Sato et al. as discussed by the authors proposed a new method for the detection of the Kamioka-Ichimura-Ishii-Moriyama (KIMOI) beamforming model, which is based on the Kavli Institute for the Physics and Mathematics of the Universe.
Journal ArticleDOI
Usefulness of Plasma Branched-Chain Amino Acid Analysis in Predicting Outcomes of Patients with Nonischemic Dilated Cardiomyopathy.
Yuki Kimura,Takahiro Okumura,Shingo Kazama,Naoki Shibata,Hideo Oishi,Yoshihito Arao,Tasuku Kuwayama,Hiroo Kato,Shogo Yamaguchi,Hiroaki Hiraiwa,Toru Kondo,Ryota Morimoto,Toyoaki Murohara +12 more
TL;DR: The BCAA/total AA ratio might be a useful predictor for future cardiac events in patients with NIDCM, and was positively correlated with LVEF and negatively correlated with brain natriuretic peptide.
Progress of SuperKEKB
Takako Miura,Tetsuo Abe,Toshikazu Adachi,Kazunori Akai,Mitsuo Akemoto,A. Akiyama,Dai Arakawa,Yoshio Arakida,Yasushi Arimoto,M. Arinaga,Kiyokazu Ebihara,Kazumi Egawa,Atsushi Enomoto,J.W. Flanagan,Shigeki Fukuda,Hitoshi Fukuma,Yoshihiro Funakoshi,Kazuro Furukawa,Takaaki Furuya,Kazufumi Hara,Toshiyasu Higo,Hiromi Hisamatsu,Hiroyuki Honma,Teruya Honma,R. Ichimiya,Naoko Iida,Hiromi Iinuma,Hitomi Ikeda,M. Ikeda,Takuya Ishibashi,Hitoshi Ishii,M. Iwasaki,Atsushi Kabe,Tatsuya Kageyama,Hiroshi Kaji,Kazuhisa Kakihara,S. Kamada,Takuya Kamitani,Shiori Kanaeda,Ken-ichi Kanazawa,Hiroaki Katagiri,Shigeki Kato,Shingo Kazama,Mitsuo Kikuchi,T. Kobayashi,Haruyo Koiso,Yuuji Kojima,Miho Kurashina,K. Marutsuka,Mika Masuzawa,Shuji Matsumoto,Toshihiro Matsumoto,H. Matsushita,Shinichiro Michizono,K. Mikawa,Toshihiro Mimashi,Fusashi Miyahara,K. Mori,Takashi Mori,Akio Morita,Yoshiyuki Morita,Hirotaka Nakai,Hiromitsu Nakajima,Tatsuro Nakamura,Kota Nakanishi,Katsumi Nakao,Hiroyuki Nakayama,Takuya Natsui,Michiru Nishiwaki,Jun-ichi Odagiri,Yujiro Ogawa,Kazuhito Ohmi,Yukiyoshi Ohnishi,Satoshi Ohsawa,Yasunobu Ohsawa,Norihito Ohuchi,Katsunobu Oide,Toshiyuki Oki,Masaaki Ono,Hiroshi Sakai,Y. Sakamoto,Shinya Sasaki,M. Sato,Daisuke Satoh,Masanori Satoh,Kyo Shibata,Tetsuo Shidara,Mitsuru Shirai,A. Shirakawa,Masaaki Suetake,Yusuke Suetsugu,Ryuhei Sugahara,Hiroshi Sugimoto,Tsuyoshi Suwada,S. Takasaki,Toshikazu Takatomi,Tateru Takenaka,Yasunao Takeuchi,Madoka Tanaka,Masafumi Tawada,Shinji Terui,Makoto Tobiyama,N. Tokuda,Kiyosumi Tsuchiya,Xudong Wang,Ken Watanabe,Hiroshi Yamaoka,Yoshiharu Yano,Kazue Yokoyama,Masato Yoshida,Mitsuhiro Yoshida,S. Yoshimoto,K. Yoshino,Rui Zhang,Demin Zhou,Xiangyu Zhou,Zhanguo Zong +116 more
TL;DR: SuperKEKB as discussed by the authors was designed based on the "nano-beam" scheme with the target luminosity of 8×10 35 cm -2 s -1, and the design of the interaction region with a very low βy* at the interaction point (IP) was discussed.