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1. Development of energy-resolved neutron imaging detectors at RADEN

Author

Parker, Joseph Don, Harada, Masahide, Hayashida, Hirotoshi, Hiroi, Kosuke, Kai, Tetsuya, Matsumoto, Yoshihiro, Nakatani, Takeshi, Oikawa, Kenichi, Segawa, Mariko, Shinohara, Takenao, Su, Yuhua, Takada, Atsushi, Takemura, Taito, Taniguchi, Tomoyuki, Tanimori, Toru, and Kiyanagi, Yoshiaki

Subjects
Physics - Instrumentation and Detectors
Abstract

Energy-resolved neutron imaging at a pulsed source utilizes the energy-dependent neutron transmission measured via time-of-flight to extract quantitative information about the internal microstructure of an object. At the RADEN instrument at J-PARC in Japan, we use cutting-edge detectors employing micro-pattern detectors or fast Li-glass scintillators and fast, all-digital data acquisition to perform such measurements, while continuing their development toward better utilization of the intense neutron source. In particular, for the Micro-Pixel Chamber based Neutron Imaging Detector ({\mu}NID), a micro-pattern detector with a 400 {\mu}m pitch and employing 3He for neutron conversion, we have successfully improved the spatial resolution from 200 to 100 {\mu}m, increased the detection efficiency from 18 to 26% for thermal neutrons, and increased the maximum count rate from 0.4 to 1 Mcps. We are also testing a new readout element with a 215 {\mu}m pitch for further improved spatial resolution, and a {\mu}NID with boron-based neutron converter for increased rate performance., Comment: 8 pages, 5 figures; accepted to Proceedings of International Conference on Neutron Optics 2017, Nara, Japan (JPS Conference Proceedings)

Published
2018
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6. Recent Improvements of Particle and Heavy Ion Transport code System: PHITS

Author

Sato Tatsuhiko, Niita Koji, Iwamoto Yosuke, Hashimoto Shintaro, Ogawa Tatsuhiko, Furuta Takuya, Abe Shin-ichiro, Kai Takeshi, Matsuda Norihiro, Okumura Keisuke, Kai Tetsuya, Iwase Hiroshi, and Sihver Lembit

Subjects
Physics, QC1-999
Abstract

The Particle and Heavy Ion Transport code System, PHITS, has been developed under the collaboration of several research institutes in Japan and Europe. This system can simulate the transport of most particles with energy levels up to 1 TeV (per nucleon for ion) using different nuclear reaction models and data libraries. More than 2,500 registered researchers and technicians have used this system for various applications such as accelerator design, radiation shielding and protection, medical physics, and space- and geo-sciences. This paper summarizes the physics models and functions recently implemented in PHITS, between versions 2.52 and 2.88, especially those related to source generation useful for simulating brachytherapy and internal exposures of radioisotopes.

Published
2017
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7. Obesity as a risk factor for unanticipated admissions after ambulatory surgery

Author

Hofer, Roger. E., Kai, Tetsuya, Decker, Paul A., and Warner, David O.

Subjects
Obesity -- Research, Obesity -- Health aspects, Surgery, Outpatient -- Research, Surgery, Outpatient -- Complications and side effects, Hospitals -- Admission and discharge, Hospitals -- Risk factors
Abstract

OBJECTIVE: To test the hypothesis that obesity is an independent risk factor for unplanned hospital admission or readmission among patients scheduled for ambulatory surgery in a tertiary medical center. PATIENTS [...]

Published
2008

8. Progress of general control system for Materials and Life Science Experimental Facility at J-PARC

Author

Sakai, Kenji, Oi, Motoki, Takada, Hiroshi, Kai, Tetsuya, Nakatani, Takeshi, Kobayashi, Yasuo, and Watanabe, Akihiko

Abstract

核破砕中性子源やミュオン標的などを安全に効率よく運転するために、物質・生命科学実験施設(MLF)は、専用の全体制御システム(GCS)を持ち、運転状況に応じた機器の監視操作やインターロックを運用している。GCSは、その役割に応じて、ネットワーク系(LAN), 統括制御系(ICS), サーバー, インターロック系(ILS), タイミング配信系(TDS)など幾つかのサブシステムで構成される。GCSは、MLF内の機器を独自に運転制御する一方、J-PARCの加速器や他実験施設と連動しながらMLFの安定したビーム運転を実現している。2008年度のビーム運転開始以来、GCSは運転制御コミッショニングに基づく改修を経て、システム性能を継続的に維持する視点から、ICSの大幅なアップグレードやILSの機能拡張を実施してきた(2010年度-2015年度)。この様に運転開始から約10年間、GCSには全般に渡って数多くの追加・変更がなされてきた。したがってGCS高度化の今後の方向性を決めるために、これまでの高度化の履歴とGCSの現況を把握することが重要と考え、2017年度時のGCSの構成・機能・役割を整理して取り纏めた。, For safely and efficiently operating a spallation neutron source and a muon target, a general control system (GCS) operates within Materials and Life Science Experimental Facility (MLF). GCS administers operation processes and interlocks of many instruments. It consists of several subsystems such as an integral control system (ICS), interlock systems (ILS), shared servers, network system, and timing distribution system (TDS). Although GCS is an independent system that controls the target stations, it works closely with the control systems of the accelerators and other facilities in J-PARC. Since the first beam injection, GCS has operated stably without any serious troubles after modification based on commissioning for operation and control. Then, significant improvements in GCS such as upgrade of ICS by changing its framework software and function enhancement of ILS were proceeded until 2015. In this way, many modifications have been proceeded in the entire GCS during a period of approximately ten years after start of beam operation. Under these situation, it is important to comprehend upgrade history and present status of GCS in order to decide its upgrade plan. This report summarizes outline, structure, roles and functions of GCS in 2017.

Published
2019

10. Optimization of the magnetic field environment in the polarization analysis system of BL22 'RADEN' at J-PARC/MLF (Contract research)

Author

Hiroi, Kosuke, Shinohara, Takenao, Hayashida, Hirotoshi, Su, Y., Kai, Tetsuya, and Oikawa, Kenichi

Abstract

J-PARCの物質・生命科学実験施設(MLF)BL22に設置されたパルス中性子イメージング用ビームライン「螺鈿」では、偏極中性子を利用した磁気イメージング手法の技術開発が精力的に行われている。「螺鈿」では、偏極中性子による磁気イメージングを実施するための偏極度解析装置が整備されたが、機器間の磁場接続を改善し、ビーム経路中で中性子偏極度の低下を防ぐことにより、偏極中性子輸送性能を向上させる余地があった。そこで「螺鈿」の偏極度解析装置内の磁場分布をシミュレーションにより評価し、偏極度低下の原因を特定するとともに、磁場接続の最適化を行い、ビーム経路中の中性子偏極度を高く保つことができる機器配置を決定した。さらに計算により求めた最適条件について中性子ビームを利用した実験を行った結果、波長や場所の違いによる偏極度の変動が改善され、約4cm角の視野範囲全体に渡って均一な偏極度を得ることができた。本報告ではシミュレーションに基づく磁場環境評価と最適化の結果および、シミュレーション結果の妥当性を実験的に検証した研究成果に関して報告する。, Energy resolved neutron imaging techniques have been developed at BL22 "RADEN" installed in the Materials and Life Science Experimental Facility (MLF) of J-PARC. A polarized neutron imaging technique attracts much attention as a magnetic imaging method that enables to obtain a quantitative magnetic field distribution in an industrial product under driving state. At RADEN, a polarization analysis apparatus for polarized neutron imaging experiments has been prepared, but its performance was not fully achieved due to imperfectness of the field connection between devices. To improve the performance of polarization analysis system at RADEN, we performed magnetic field simulation of this system, and optimized the magnetic field environment by evaluating the magnetic field connection. After the optimization, we rearranged devices of the system, and confirmed that uniform polarization distribution could be obtained within 4$\times$4 cm$^{2}$ field of view.

Published
2016

12. Materials and Life Science Experimental Facility (MLF) at the Japan Proton Accelerator Research Complex II: Neutron Scattering Instruments

Author

Nakajima, Kenji, primary, Kawakita, Yukinobu, additional, Itoh, Shinichi, additional, Abe, Jun, additional, Aizawa, Kazuya, additional, Aoki, Hiroyuki, additional, Endo, Hitoshi, additional, Fujita, Masaki, additional, Funakoshi, Kenichi, additional, Gong, Wu, additional, Harada, Masahide, additional, Harjo, Stefanus, additional, Hattori, Takanori, additional, Hino, Masahiro, additional, Honda, Takashi, additional, Hoshikawa, Akinori, additional, Ikeda, Kazutaka, additional, Ino, Takashi, additional, Ishigaki, Toru, additional, Ishikawa, Yoshihisa, additional, Iwase, Hiroki, additional, Kai, Tetsuya, additional, Kajimoto, Ryoichi, additional, Kamiyama, Takashi, additional, Kaneko, Naokatsu, additional, Kawana, Daichi, additional, Ohira-Kawamura, Seiko, additional, Kawasaki, Takuro, additional, Kimura, Atsushi, additional, Kiyanagi, Ryoji, additional, Kojima, Kenji, additional, Kusaka, Katsuhiro, additional, Lee, Sanghyun, additional, Machida, Shinichi, additional, Masuda, Takatsugu, additional, Mishima, Kenji, additional, Mitamura, Koji, additional, Nakamura, Mitsutaka, additional, Nakamura, Shoji, additional, Nakao, Akiko, additional, Oda, Tatsuro, additional, Ohhara, Takashi, additional, Ohishi, Kazuki, additional, Ohshita, Hidetoshi, additional, Oikawa, Kenichi, additional, Otomo, Toshiya, additional, Sano-Furukawa, Asami, additional, Shibata, Kaoru, additional, Shinohara, Takenao, additional, Soyama, Kazuhiko, additional, Suzuki, Jun-ichi, additional, Suzuya, Kentaro, additional, Takahara, Atsushi, additional, Takata, Shin-ichi, additional, Takeda, Masayasu, additional, Toh, Yosuke, additional, Torii, Shuki, additional, Torikai, Naoya, additional, Yamada, Norifumi, additional, Yamada, Taro, additional, Yamazaki, Dai, additional, Yokoo, Tetsuya, additional, Yonemura, Masao, additional, and Yoshizawa, Hideki, additional

Published
2017
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13. Polarization analysis for magnetic field imaging at RADEN in J-PARC/MLF

Author

Shinohara, Takenao, primary, Hiroi, Kosuke, additional, Su, Yuhua, additional, Kai, Tetsuya, additional, Nakatani, Takeshi, additional, Oikawa, Kenichi, additional, Segawa, Mariko, additional, Hayashida, Hirotoshi, additional, Parker, Joseph D., additional, Matsumoto, Yoshihiro, additional, Zhang, Shuoyuan, additional, and Kiyanagi, Yoshiaki, additional

Published
2017
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25. Reply

Author

Sumiyoshi, Rieko, primary and Kai, Tetsuya, additional

Published
1995
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