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  2. 斎藤 芳隆

斎藤 芳隆

サイトウ ヨシタカ  (Yoshitaka Saito)

基本情報

所属
国立研究開発法人宇宙航空研究開発機構 宇宙科学研究所 学際科学研究系 准教授
学位
博士(理学)(東京大学)
理学(修士)(東京大学)
J-GLOBAL ID
200901068528199528
researchmap会員ID
1000227990

科学観測用気球の開発とそれを用いた科学観測を行っています。気球には到達できる高さ、飛翔時間の制限がありますが、それを大きく打ち破る気球が誕生しつつあります。気球の研究を進め、気球の可能性を広げ、様々な科学観測実験で利用できるようにしたいと考えています。

 修士過程では、所属する研究室で開発が進められていた天体硬X線検出器を用いた気球実験に携わりました。博士過程ではそれを将来のX線天文衛星搭載用に発展させると共に、X線天文衛星「あすか」による回転駆動型パルサーの観測を行い、エネルギー放射機構の研究を進めました。

 その後、宇宙研気球グループに奉職し、高エネルギー宇宙物理に関する観測実験を継続すると共に、気球本体、搭載機器、地上系といった気球実験システム全般の開発と運用に従事するようになりました。気球の飛翔実験実施にあたっては受信班として、気球と地上間のデータ伝送の確立を担っています。

 気球本体の開発として最初に手掛けたのは、薄い皮膜を開発し、それを用いた気球を開発することで、飛翔高度を向上させる研究でした。3.4 um厚のフィルムを開発し、2002年にはそのフィルムを用いた気球により30年ぶりに世界最高気球高度記録を更新しています。さらにより薄いフィルムの開発を進め、2013年には2.8 um厚のフィルムにより、再度の記録更新に成功しました。

 この研究と並行して進めているのがスーパープレッシャー気球の開発です。これは、気球を密閉して加圧することで、夜間の浮力の低下を防ぎ、長時間の飛翔を可能にする気球です。2000年代は気球皮膜自体の開発や、ロープと皮膜を組み合わせることで構造強度を向上させたLobed-pumpkin型やその展開性能を改善した俵型の気球の開発を進めました。2010年には皮膜に菱形の目の網をかぶせることで軽い構造で高い耐圧性能が得られることを見出し、以後、この型の気球の開発を進めております。スーパープレッシャー気球の実現には、軽い構造で十分な耐圧性能と気密性能を持たせることが大切です。2019年には体積6,400 m3の気球の地上試験(地上試験としては世界最大級です)を実施し、十分な安全率をもって、高度27 kmに70 kgのペイロードを長時間飛翔させることができる耐圧性能を有することを確認しました。2020年には体積2,000 m3の気球の飛翔試験を実施したのですが、放球直後からガス漏れが発生するという不具合が発生しました。放球時に網が叩いたことで皮膜が衝撃破壊を起こしたもので、これを防ぐべく、2020~2023年にかけて、準静的に気球を立ち上げて放球する新しい方法を開発し、その実証試験まで完了しました。2024年には、この放球方法により、再度、体積2,000 m3の気球の飛翔試験を実施する計画です。また、皮膜を多層化することで10日以上の飛翔が可能となる気密性能が得られること、耐圧性能は3,000 Paを超えることを体積180 m3の小型気球の地上試験で実証しました。2022年には、この型の気球を用いて、南極域での大気重力波観測が実施され、2024年には改良を加えた気球での実験を計画しています。

満膨張になった体積6,400 m3の気球

 このように、気球の研究は進んでいるのですが、一方で、気球を用いた科学観測実験の方は開店休業状態であり、これが実施できていないことには忸怩たる思いがあります。残念ながら、現状の我が国の気球実験システムでは、気球の飛翔期間が数10時間に限られてしまうため、得られる光子数が乏しく、実施したい高エネルギー天体の研究が困難なのです。むろん、この制限の元で科学的な成果をあげることも不可能ではありませんが、自分が我が国で唯一、大気球の飛翔機会を提供している研究所に所属し、我々以外に気球の研究を進めているグループが存在しない現状を考えると、気球を用いた実験を実施するよりも、気球の研究を推進し、自らの実験を可能にすると共に、みなさまに利用していただける気球が提供できるようにすることこそが責務、と感じております。

 長時間飛翔が可能な気球は世界的にも黎明期にあり、我が国ではその技術は未獲得です。大型気球は開発コストが嵩むため、小型気球からの開発となるのですが、技術的には小型の方が困難です。これは、気球重量が表面積に比例しているのに対し、浮力は体積に比例することが一因で、もう一つには気球皮膜の欠陥数は表面積に比例するのに対し、ガス漏れの許容量は気球体積に比例するためです。上にも記載しましたが、我々は耐圧性能、気密性能、それぞれの向上手段を見出しており、これらを用いて科学観測に利用できる気球を開発し、小型気球による科学観測を開始したいと考えています。 

研究キーワード

 8

研究分野

 3

経歴

 8
もっとみる

学歴

 2

論文

 305
  • Yoshihisa Irimajiri, Takeshi Manabe, Satoshi Ochiai, Harunobu Masuko, Takamasa Yamagami, Yoshitaka Saito, Naoki Izutsu, Tomomi Kawasaki, Michiyoshi Namiki, Kaoru Sato, Isao Murata
    International Geoscience and Remote Sensing Symposium (IGARSS) 1 412-415 2005年  査読有り
    We have developed a balloon-borne superconducting submillimeter-wave limb-emission sounder (BSMILES) to determine vertical profiles of stratospheric minor constituents like ozone and a number of key species related to ozone destruction by observing thermal emission lines from these molecules. BSMILES carries a 624-652 GHz superconductor-insulator-superconductor (SIS) receiver with the system noise temperature of 330-460 K in double sideband (DSB) during the flight. BSMILES flight experiments were conducted on August 30, 2003 and September 7, 2004 from the Pacific Coast of Japan. The system operated properly and spectra of O3, CIO, HCl, HO2, O3 isotopes were successfully measured. After the observation, the gondola splashed down in the Pacific Ocean and was retrieved. © 2005 IEEE.
  • 飯嶋一征, 井筒直樹, 福家英之, 斉藤芳隆, 川崎朋実, 松坂幸彦, 並木道義, 太田茂雄, 鳥海道彦, 山上隆正, 山田和彦, 瀬尾基治, 山岸明彦, 横堀伸一
    宇宙研究開発機構研究開発報告:大気球報告2005 ISSN1349-1113, JAXA-RR-05-012. 117-128 2005年  査読有り
  • S. Torii, T. Tamura, N. Tateyama, K. Hibino, T. Yuda, K. Yoshida, K. Kashiwagi, S. Okuno, J. Nishimura, T. Yamagami, Y. Saito, H. Fuke, M. Takayanagi, H. Tomida, S. Ueno, F. Makino, M. Shibata, Y. Katayose, S. Kuramata, M. Ichimura, Y. Uchihori, H. Kitamura, K. Kasahara, H. Murakami, T. Kobayashi, Y. Komori, K. Mizutani, T. Terasawam, R. E. Streitmatter, J. W. Mitchell, L. M. Barbier, A. A. Moiseev, J. F. Krizmanic, J. F. Ormes, W. R. Binns, M. H. Israel, H. S. Krawzczynski, G. Case, M. L. Cherry, T. G. Guzik, J. B. Isbert, J. P. Wefel, P. S. Marrocchesi, P. Maestro, M. G. Bagliesi, V. Millucci, M. Meucci, G. Bigongiari, R. Zei, F. Ligabue, F. Morsani, O. Adriani, P. Papini, P. Spillantini, L. Bonechi, E. Vannuccini, J. Chang, W. Gan, T. Lu
    29th International Cosmic Ray Conference, ICRC 2005 3 329-332 2005年  査読有り
    The CALorimetric Electron Telescope (CALET) mission is proposed for the observation of various components of cosmic-rays as well as ?-rays on the Exposure Facility of the Japanese Experiment Module ( EF/JEM ) on the International Space Station (ISS). The detector is composed of an imaging calorimeter of scintillating fibers (IMC), a total absorption calorimeter of BGO (TASC) and a silicon pad module at the top of IMC . The total thickness of absorber is 36 r.l for the electromagnetic particles and 1.8 m.f.p for protons. The total weight of the payload, including the detector, the support, the interface instruments with JEM so on, is nearly 2,500 kg and the geometrical factor for the electrons is about 1 m2 sr. The CALET has a unique capability to measure electrons and ?-rays beyond 1 TeV since the hadron rejection power is 106. The energy resolution for the electro-magnetic particles is better than a few % above 100 GeV. The detector is optimally designed to detect changes in the energy spectra caused by physical processes, or a line signature in the energy distribution expected from annihilations of dark matter candidates. This paper is the first presentation by the international team of the CALET collaboration.
  • M. Ichimura, S. Kuramata, S. Torii, T. Tamura, K. Yoshida, K. Kasahara, J. Chang, H. Fuke, K. Hibino, T. Kashiwagi, Y. Katayose, H. Kitamura, T. Kobayashi, Y. Komori, F. Makino, K. Mizutani, H. Murakami, J. Nishimura, S. Okuno, Y. Saito, M. Shibata, M. Takayanagi, N. Tateyama, T. Terasawa, S. Tomida, Y. Uchihori, S. Ueno, T. Yamagami, T. Yuda
    29th International Cosmic Ray Conference, ICRC 2005 3 321-324 2005年  査読有り
    Although CALET is originally designed for detections of electrons and gamma rays, nuclear components of primary cosmic rays, from protons to iron nucleus and more, are also observable by CALET, utilizing the total absorption calorimeter (TASC). TASC has 1.6 m.f.p. for protons which is enough to measure the energy of protons up to 1000 TeV. Using the observed spectra, the following items will be discussed: (1) the detailed structure of the spectrum, checking the change of the spectrum index and comparing indices of various components. More than 300 iron nuclei with the energy greater than 1 TeV/n will be observed. (2) secondary/primary ratio. Especially we can observe the both of B/C ratio and sub-Fe/Fe ratio. At the space station, the observation is free from the atmospheric contamination corrections. These observations are essential for the acceleration mechanisms and the propagation of cosmic rays.
  • K. Yoshida, S. Torii, T. Tamura, K. Kasahara, J. Chang, H. Fuke, K. Hibino, M. Ichimura, T. Kashiwagi, Y. Katayose, H. Kitamura, T. Kobayashi, Y. Komori, S. Kuramata, F. Makino, K. Mizutani, H. Murakami, J. Nishimura, S. Okuno, Y. Saito, M. Shibata, M. Takayanagi, N. Tateyama, T. Terasawa, S. Tomida, Y. Uchihori, S. Ueno, T. Yamagami, T. Yuda
    29th International Cosmic Ray Conference, ICRC 2005 3 337-340 2005年  査読有り
    We are proposing the CALET (CALorimetric Electron Telescope) for the observation of high-energy electrons and gamma rays at the Exposed Facility of the Japanese Experiment Module on the International Space Station. The CALET has a capability to observe electrons (+positrons) in 1GeV-10TeV and gamma rays in 20MeV- 10TeV with a high energy resolution of 2%@100GeV, an angular resolution of 0.06deg@100GeV, and a high proton rejection power of 10. CALET has the geometrical factor of nearly 1m-sr and three-years observation is expected. Precise electron observation of CALET enables us to identify cosmic-ray electron sources by the detection of distinctive features in the energy spectrum and anisotropy toward nearby sources. The ISS orbit enables CALET to survey all of the sky in a wide field of view of 2 sr without attitude control of the instrument. In addition, by the hybrid observations of high-energy electrons and gamma rays, the CALET can search for WIMP dark matter.
  • S. Torii, T. Tamura, K. Yoshida, N. Tateyama, K. Hibino, T. Yuda, K. Kashiwagi, S. Okuno, J. Nishimura, T. Yamagami, M. Takayanagi, Y. Saito, H. Fuke, H. Tomida, S. Ueno, F. Makino, M. Shibata, Y. Katayose, S. Kuramata, M. Ichimura, Y. Uchihori, H. Kitamura, H. Murakami, K. Kasahara, T. Kobayashi, Y. Komori, K. Mizutani, T. Terasawa, J. Chang
    29th International Cosmic Ray Conference, ICRC 2005 3 333-336 2005年  査読有り
    We propose the CALorimetric Electron Telescope (CALET) mission for Japanese Experiment Module, Exposed Facilisty (JEM-EF) on ISS to address some of the most profound questions in particle astrophysics. CALET is composed of two kinds of calorimeter, an imaging calorimeter, IMC, at upper part and a total absorption calorimeter, TASC, at lower part. The IMC is employed to detect the shower profile by using scintillating fibers with 64-anode PMT read-out system. The TASC is consisted of BGO logs to measure the energy deposits in each shower. Total weight of the payload is nearly 2,500 kg and the geometrical factor for electrons is about 1 m2 sr. CALET has a unique capability to measure electrons and gamma-rays beyond 1 TeV since it can have a superior hadron rejection power of 106 for electrons and much better for gamma-rays. It can also measure protons and heavy nuclei in proximity of the Knee. The energy resolution for electromagnetic particles is better than a few % above 100 GeV. We will present a baseline design of the detector, and report the present status of detector development. Compatibility of the detector with the JEM Exposed Facility will also be discussed.
  • Y. Katayose, S. Torii, T. Tamura, K. Yoshida, H. Murakami, H. Fuke, K. Hibino, M. Ichimura, K. Kasahara, K. Kashiwagi, H. Kitamura, Y. Komori, S. Kuramata, T. Kobayashi, F. Makino, K. Mizutani, J. Nishimura, S. Okuno, Y. Saito, M. Shibata, M. Takayanagi, N. Tateyama, T. Terasawa, H. Tomida, Y. Uchihori, S. Ueno, T. Yamagami, T. Yuda
    29th International Cosmic Ray Conference, ICRC 2005 3 325-328 2005年  査読有り
    We are developing the CALET (CALorimetric Electron Telescope) instrument for observing high energy electrons and gamma rays on ISS. For confirming the CALET capability expected by simulations, we made a small model of CALET with a size of 2/3 in thickness and had the experimental tests by using beams available in CERN. The beams used are 50GeV, 100GeV electrons and 150 GeV protons. The energy resolution is φ/E = 0.4 ± 0.1% and 2.25 ± 0.04% for 50GeV and 100GeV electrons, respectively. About 97.3% of protons can be rejected by shower image , while approximately 96.8% of electrons are correctly identified. The performance of the model was also investigated by Monte Carlo simulation to compare with the results by beam tests. We confirmed good consistency between simulation and the beam test.
  • Y. Komori, S. Torii, T. Tamura, K. Yoshida, J. Nishimura, T. Terasawa, H. Fuke, K. Hibino, M. Ichimura, K. Kasahara, K. Kashiwagi, Y. Katayose, H. Kitamura, T. Kobayashi, S. Kuramata, F. Makino, K. Mizutani, H. Murakami, S. Okuno, Y. Saito, M. Shibata, M. Takayanagi, N. Tateyama, H. Tomida, Y. Uchihori, S. Ueno, T. Yamagami, T. Yuda
    29th International Cosmic Ray Conference, ICRC 2005 2 453-456 2005年  査読有り
    The CALorimetric Electron Telescope(CALET) mission is proposed to measure galactic electrons and gamma rays on ISS/JEM for three years[1]. In this paper we report the purpose of this project in solar physics and the expected results from precise measurement of electron energy spectrum in the 1-100GeV energy range. The CALET measurement of long-term variations of the energy spectrum will produce a wealth of data to investigate electron propagation in the heliosphere. CALET does not distinguish positive charge from negative one. However, we can evaluate the charge sign dependence of solar modulation using correlation with the neutron monitors, since most particles are negative electrons in this energy range. Further we estimate transport parameters, mainly the energy dependence of diffusion coefficient in the heliosphere. CALET will also have a capability of measuring the short-term variation of around ten Forbush decreases(Fds) for three years. Precise measurements of the energy spectral variation of Fds will give a conclusion of the energy dependence of Fds.
  • K. Yoshida, H. Kitamura, S. Torii, T. Tamura, K. Kasahara, J. Chang, I. Iijima, A. Kadokura, Y. Katayose, T. Kobayashi, Y. Komori, Y. Matsuzaka, K. Mizutani, H. Murakami, M. Namiki, J. Nishimura, S. Ohta, Y. Saito, M. Shibata, N. Tateyama, T. Yamagami, H. Yamagishi, T. Yuda
    29th International Cosmic Ray Conference, ICRC 2005 9 53-56 2005年  査読有り
    Since atmospheric gamma rays at high altitude are mainly produced by a single interaction of primary cosmic rays with atmospheric nuclei, they are very useful to study nuclear interaction models and atmospheric neutrinos. We have observed atmospheric gamma rays from 100 GeV to 1 TeV with PPB-BETS by a long duration balloon flight of Polar Patrol Balloon (PPB) in Antarctica. The observation was carried out for 13 days at an altitudeof ∼35 km in January 2004. The detector of PPB-BETS is an imaging calorimeter composed of scintillating-fiber belts and plastic scintillators inserted between lead plates. We have collected 5.7×103 events over 100 GeV. The number of observed atmospheric gamma rays is 1.0×102 events in the energy range of 100 GeV to 1 TeV.
  • 海外気球実験に関する小研究会集録 pp. 57-65 2005年  
  • 大気球シンポジウム集録 pp. 126-129 2005年  
  • 橋本 樹明, 斎藤 芳隆, 稲富 裕光, 石川 毅彦, 澤井 秀次郎, 山川 宏, 吉光 徹雄, 坂井 真一郎
    JASMA : Journal of the Japan Society of Microgravity Application = 日本マイクログラビティ応用学会誌 21 66-66 2004年11月4日  
  • S. Torii, T. Tamaura, N. Tateyama, K. Yoshida, T. Kashiwagi, K. Hibino, K. Anraku, T. Yamashita, F. Makino, J. Chang, J. Nishimura, T. Yamagami, Y. Saito, M. Takayanagi, M. Shibata, Y. Katayose, T. Inoue, Y. Uchihori, H. Kitamura, K. Kasahara, H. Murakami, T. Kobayashi, Y. Komori, K. Mizutani, T. Yuda
    Nuclear Physics B - Proceedings Supplements 134(1-3) 23-30 2004年9月  査読有り
    The CALorimetric Electron Telescope, CALET, mission is proposed for the Japanese Experiment Module Exposed Facility, JEM-EF, of the International Space Station. The mission goal is to reveal the high-energy phenomena in the universe by carrying out a precise mesurement of the electrons in 1 GeV - 10 TeV and the gamma-rays in 20 MeV - several TeV. The instrument will be composed of an imaging calorimeter of scintillating fibers and a total absorption calorimeter of BGO. The total thickness of absorber is 36 r.l for electro-magnetic particles and 1.8 m.f.p for protons. Total weight of the payload is nearly 2,500 kg, and the effective geometrical factor for the electrons might be ∼1.0 m2sr. The CALET has a unique capability to measure the electrons and gamma-rays over 1 TeV since the hadron rejection power can be 10 6 and the energy resolution of electro-magnetic particles is better than a few % over 100 GeV. Therefore, it is promissing to detect the change of energy spectra and the line feature of energy distribution expected from the dark matter. We are expecting to launch the CALET around 2010 by the Japanese H-II Transfer Vehicle, HTV, and to carry out the observation more than three years. © 2004 Elsevier B.V. All rights reserved.
  • 入交 芳久, 真鍋 武嗣, 落合 啓, 増子 治信, 山上 隆正, 斎藤 芳隆, 井筒 直樹, 並木 道義
    宇宙航空研究開発機構研究開発報告 3 97-104 2004年3月  査読有り
    2003年8月30日,成層圏中のO_3,ClOを観測することを目的に,気球搭載型超伝導サブミリ波リム放射サウンダ(BSMILES)の放球実験が行われた.BSMILESには直径300mmのアンテナ,650GHz超伝導受信機(SISミクサ),音響光学型分光計(AOS)が搭載されている.観測中システムは正常に動作し,O_3,ClOの放射電波スペクトルを得ることが出来た.観測終了後,機器は海上回収された
  • 緒方 麻里子, 小山 孝一郎, 松坂 幸彦, 太田 茂雄, 斎藤 芳隆, 並木 道義, 山上 隆正
    宇宙航空研究開発機構研究開発報告 3 65-95 2004年3月  査読有り
    我々は音響光学素子を用いて,太陽吸光法により成層圏の大気微量成分を測定するための新しい分光器を開発した。分光器の主な構成は,音響光学素子,音響光学素子に印加する高周波を作る高周波発信機そして光検出器としての光電子増倍管である。重量は4.0kg,消費電力は5.0Wである。本分光器の分光波長範囲は410-460nm,波長分解能は0.85nmである。2002年9月12日三陸大気球観測所において,本観測器を搭載し成層圏NO_2を観測する気球実験が行われた。実験は成功し,解析の結果,高度30kmで3.0×10^<-9>cm^<-3>のNO_2密度ピークがあることがわかった。この結果は衛星UARSに搭載されているHALOEによって本実験の10日後に観測されたNO_2高度分布と非常に良く一致していることがわかった。
  • 久保田 あや, 松坂 幸彦, 山上 隆正, 斎藤 芳隆, 中澤 知洋, 能町 正治
    宇宙航空研究開発機構研究開発報告 3 23-39 2004年3月  査読有り
    宇宙航空研究開発機構宇宙科学研究本部大気球観測センターでは,プログラマブル・ロジック・デバイス(PLD)を用いたPCMコマンドデコーダの開発を2001年から進めている.2001年にはALTERA社のFPGA,MAX7000ファミリを用いて,松坂らが開発した従来の簡易PCMコマンドデコーダをPLD化したコマンドデコーダを試作した.2001年8月26日に三陸大気球観測所において気球に搭載し,実証試験を行ない,高度30kmの気球環境においてコマンドデコーダとしての性能が十分あることを確認した.2002年から2003年にかけて,Xilinx社の低消費電力CPLDデバイス,CoolRunnerを用いた開発を進めた.PLDの特徴を最大限活かし,多チャンネルのパラレルコマンド,およびシリアルコマンドをサポートする仕様とし,かつ,10mAという低い消費電流での実装を実現した.2003年9月19日に三陸大気球観測所にて気球に搭載して動作試験を行い,高度43.5kmの気球環境で充分な性能を発揮することを確認した.
  • 並木 道義, 松坂 幸彦, 斉藤 芳隆, 門倉 昭, 海老原 祐輔, 山岸 久雄, 佐藤 夏雄, 江尻 全機, 飯島 一征, 川崎 朋実, 太田 茂雄, 井筒 直樹, 山上 隆正, 井上 一, 廣澤 春任, 内山 貞幸, 紺野 祐司
    宇宙航空研究開発機構研究開発報告 3 1-21 2004年3月  査読有り
    国立極地研究所,宇宙科学研究所および他の大学研究機関と共同で行った大気球実験は,2003年1月に南極における長時間気球実験を実施した.我々は,この気球実験を南極周回気球実験[1]と呼んでいる.気球に搭載された観測器は,ULF/ELF/VLF波動検出器,オーロラX線撮像装置,DC電場検出器,3軸フラックス磁場検出器とGPSを用いた電子密度検出器であった.当初は,上記の検出器を搭載した3機の気球を磁気圏の境界領域で起こる現象の空間的時間的変動を研究するために150km離して連続的に南極昭和基地より放球する予定であった.最初の気球は,2003年1月6日に放球されたが,気球切り離しコマンドシステムの誤動作により,放球から2時間後に飛翔を終了する事故があった.後の2機の気球は、2003年1月13日に放球され,高度32kmで水平浮遊に入り,約20km/hrで西方に進行した.2機の気球は,南極上空を半周した1月25日に上空の風の方向が変わり,最終的には東方に進行し,約17〜24日後に着水した.この間、2機の気球は,150kmから1500kmの距離を保ちながら飛行を続けた.観測されたデータは,イリジウム衛星回線システムを用いて,日本に直接伝送した.本稿では,気球に搭載したHKシステムの概要,昭和基地における気球放球作業,気球飛翔状況およびHKデータの解析結果について述べる.
  • 中村智一, 内田正美, 江尻全機, 海老原祐輔, 大島直哉, 門倉昭, 斎藤芳隆, 佐藤夏雄, 鈴木裕武, 高橋渉, 中川道夫, 並木道義, 松坂幸彦, 松本直記, 向井謙治, 村上浩之, 山内誠, 山上隆正, 山岸久雄, 山本幹生
    平成15年度大気球シンポジウム集録 79-82 2004年3月  
  • Procs. of the 24th International Space Symposium pp. 869-870, (2004-m-12p) 2004年  
  • T. Yamagami, Y. Saito, Y. Matsuzaka, M. Namiki, M. Toriumi, R. Yokota, H. Hirosawa, K. Matsushima
    Advances in Space Research 33(10) 1653-1659 2004年  査読有り
    Development of a balloon flying at higher altitude is one of the most attractive trials for balloon technology. We, the balloon group at the Institute of Space and Astronautical Science (ISAS), have been engaged in the development of a light balloon to go to higher altitudes since 1991. We have developed light equipment for house keeping modules and an ultra-thin film with a thickness of only 3.4 μm. Using the equipment and film, we have made and launched some balloons from 1000 m 3 in volume. We gradually enlarged the balloon volume, and on May 23, 2002, we launched a 60,000 m 3 balloon. The balloon reached the altitude of 53.0 km, which is the highest altitude ever reached by a balloon. This event opened a new era for scientific observations at high altitude. © 2004 COSPAR. Published by Elsevier Ltd. All rights reserved.
  • Yukihiko Matsuzaka, Yoshitaka Saito, Naoki Izustu, Takamasa Yamagami
    Advances in Space Research 33(10) 1660-1666 2004年  査読有り
    The Institute of Space and Astronautical Science (ISAS) balloon group has been developing and manufacturing plastic balloons made of very thin polyethylene films which can easily reach an altitude of more than 40 km with a payload less than 10 kg since 1991. In order to launch the thin film balloon confidently and easily with the least amount of people, we have developed a new launch method called the packing launch-method. In this method, we pack the uninflated portion of the balloon in a bag. We can ignore the length of a balloon in launching because the packed part of the balloon is extended in the sky after launching, and it is possible to launch a large balloon from a launch field of limited size. The packing launch-method is a revolutionary way of launching high altitude balloons made of thin polyethylene films. © 2004 COSPAR. Pulished by Elsevier Ltd. All rights reserved.
  • S. Gunji, T. Suzuki, F. Sato, H. Sakurai, F. Tokanai, Y. Saito, A. Kubota
    Advances in Space Research 33(10) 1771-1776 2004年  査読有り
    The radiation mechanism of gamma-ray bursts (GRBs) is one of the most interesting topics in the field of astrophysics. According to the fireball model, the γ-rays from GRBs should be much polarized. So we have been developing a Compton scattering type hard X-ray polarimeter for GRBs using segmented scintillators and multianode photomultipliers. We carried out basic experiments and computer simulations to investigate the basic performance. As the results, it was recognized that the designed polarimeter can detect the polarization of hard X-rays from GRBs with both the flux 10 times more than that of Crab nebula and the duration of 10 s if the hard X-rays are 8.6% polarized. © 2004 COSPAR. Published by Elsevier Ltd. All rights reserved.
  • K. Kobayashi, S. Tsuneta, T. Tamura, K. Kumagai, Y. Katsukawa, M. Kubo, Y. Sakamoto, N. Kohara, T. Yamagami, Y. Saito, K. Mori
    Advances in Space Research 33(10) 1786-1789 2004年  査読有り
    We present the design and initial flight results of a balloon-borne hard X-ray spectrometer for observing solar flares. The instrument is designed for quantitative observation of nonthermal and thermal components of solar flare hard X-ray emission, and has an energy range of 15-120 keV and an energy resolution of 3 keV. The instrument is a small (gondola weight 70 kg) system equipped with sixteen 10 × 10 × 0.5 mm CdTe detectors, and designed for a 1-day flight at 41 km altitude. Detector temperature of -15 °C was achieved through radiative cooling alone. Pre-flight tests confirmed that all detectors exceeded the target 3 keV resolution. No flares were observed during the 2001 flight, but the second flight on May 24, 2002 succeeded in observing a class M1.1 flare. Preliminary analysis indicates the observed spectrum is consistent with a purely thermal plasma at an unusually high temperature of 47 mK. © 2004 COSPAR. Published by Elsevier Ltd. All rights reserved.
  • Y. Saito, T. Yamagami, K. Mori
    Advances in Space Research 33(10) 1741-1745 2004年  査読有り
    The CdTe and the CdZnTe detectors are considered to be promising detectors for the future of astronomical hard X-ray observations due to their high stopping power and high energy resolution. For the preparation of future experiments, we have performed a simple balloon experiment using a small CdTe detector (2 mm cubic) as a piggy-back mission in 2000. Its energy range was 20-140 keV band with an energy resolution of 3.0 keV at 60 keV. The balloon reached an altitude of 36.9 km, and then gradually descended. During the 10-h flight, we successfully observed the background spectrum. The flux of the background was ∼1.5 × 10 -2 s -1 cm -2 keV -1 at 50 keV, being comparable to those of the past observations measured by CdZnTe detectors. We also found that the count-rate increases as the atmospheric pressure increases. No apparent line emission was observed. © 2004 COSPAR. Published by Elsevier Ltd. All rights reserved.
  • K Kobayashi, Y Katsukawa, M Kubo, Y Sakamoto, N Kohara, S Tsuneta, T Tamura, K Kumagai, T Yamagami, Y Saito
    Solar-B Mission and the Forefront of Solar Physics, Proceedings 325 353-353 2004年  査読有り
  • R Blanford, P Chen, T Kamae, G Madejski, J Ng, T Mizuno, H Tajima, T Thurston, L Barbier, P Bloser, T Cline, S Hunter, A Harding, J Krizmanic, J Mitchell, R Streitmatter, J Tueller, E Groth, R Fernholz, D Marlow, G Bogaert, S Gunji, H Sakurai, Y Saito, T Takahashi, J Kataoka, N Kawai, Y Fukazawa, P Carlson, W Klamra, M Pearce, CI Bjornsson, C Fransson, S Larsson, F Ryde
    2003 IEEE NUCLEAR SCIENCE SYMPOSIUM, CONFERENCE RECORD, VOLS 1-5 1708-1713 2004年  査読有り
    We are developing a new balloon-borne instrument (PoGO), to measure polarization of soft gamma rays (25-200 keV) using asymmetry in azimuth angle distribution of Compton scattering. PoGO will detect 10% polarization in 100m Crab sources in a 6-8 hour observation and bring a new dimension to studies on gamma ray emission/transportation mechanism in pulsars, AGNs, black hole binaries, and neutron star surface. The concept is an adaptation to polarization measurements of well-type phoswich counter technology used in balloon-borne experiments (Welcome-1) and AstroE2 Hard X-ray Detector. PoGO consists of close-packed array of 397 hexagonal well-type phoswich counters. Each unit is composed of a long thin tube (well) of slow plastic scintillator, a solid rod of fast plastic scintillator, and a short BGO at the base. A photomultiplier coupled to the end of the BGO detects light from all 3 scintillators. The rods with decay times &lt; 10 ns, are used as the active elements; while the wells and BGOs, with decay times similar to 250 ns are used as active anti-coincidence. The fast and slow signals are separated out electronically. When gamma rays entering the field-of-view (fwhmsimilar to 3deg(2)) strike a fast scintillator, some are Compton scattered. A fraction of the scattered photons are absorbed in another rod (or undergo a second scatter). A valid evnet requires one clean fast signal of pulse-height compatible with photo-absorption (&gt; 20keV) and one or more compatible with Compton scattering (&lt; 10keV). Studies based on EGS4 (with polarization features) and Geant4 predict excellent background rejection and high sensitivity.
  • 門倉昭, 山岸久雄, 大塚雄一, 茶珎俊一, 山上隆正, 並木道義, 松坂幸彦, 斉藤芳隆
    平成16年度大気球シンポジウムプロシーディングス 47-50 2004年  
  • Nakamura,T, Ebihara, Y, Ejiri, M, Kadokura, A, Matsumoto, N, Matsuzaka, Y, Mukai,K, Murakami, H, Nakagawa, M, Namiki, M, Oshima, N, Saito, Y, Sato, N, Suzuki, H, Takahashi, W, Uchida, M, Yamagami, T, Yamagishi, H, Yamamoto, M, Yamauchi, M
    Advances in Polar Upper Atmosphere Research 18 No.18, 10-22-22 2004年  査読有り
    In the Polar Patrol Balloon (PPB) project, two balloons named PPB-8 and -10 were launched in rapid succession to form a cluster of balloons during their flight on January 13, 2003, from Syowa Station, Antarctica. In order to make the two-dimensional images for auroral X-rays and to obtain the energy spectra of auroras with energy range from 30 keV to 778 keV, the same instruments for hard X-rays were installed on PPB-8 and -10, respectively. These detection systems observed several auroral X-ray events during the flight. In particularly on January 25, 2003, strong auroral events were detected at about 0919 UT by PPB-10 and at 0927 UT by PPB-8. The aurora observed by PPB-10 was observed after about 8 min by PPB-8 located a 650 km west of PPB-10. The energy spectra of the bright aurora at 0919 UT and 0927 UT for PPB-10 and -8 is obtained as E0 = (78+-5) keV and (70+-5) keV, respectively.
  • 中川道夫, 山上隆正, 斎藤芳隆, 村上浩之, 鈴木裕武, 山内誠, 高橋保, 江尻全機, 佐藤夏雄, 山岸久雄, 門倉昭
    平成14年度国立極地研究所共同研究報告書 26-27 2004年1月  
  • 斎藤 芳隆, 山上 隆正, 松坂 幸彦, 並木 道義, 鳥海 道彦, 横田 力男, 広沢 春任, 松島 清穂
    宇宙科学研究所報告 特集 45(45) 1-10 2003年3月  査読有り
    宇宙科学研究所気球部門では,1991年以来,10kg程度の観測器をより高高度に到達させる気球を開発してきた.1999年からは,厚み3.4μmの気球用ポリエチレンフィルムを用いた気球を製作し飛翔実験を重ね,順次気球の大型化を進めてきた.本年,2002年5月23日に体積60,000m^3の気球を製作し,飛翔実験を行った.気球は正常に上昇し,高度53.0kmという気球到達最高高度の世界記録を実に30年ぶりに塗り変えることに成功した.資料番号: SA0200102000
  • 鳥海 道彦, 松坂 幸彦, 並木 道義, 飯嶋 一征, 川崎 朋実, 内田 右武, 平山 昇司, 瀬尾 基治, 長谷川 克也, 斉藤 芳隆, 太田 茂雄, 山上 隆正, 松田 明, 小野 一彦
    宇宙科学研究所報告 特集 45(45) 11-22 2003年3月  査読有り
    日本では,観測器の回収は全て海上で行っている.宇宙科学研究所気球工学部門では,原則として海上に降下させた大型気球および観測器はできるかぎり回収を行うように努力をしてきた.また,1996年より回収作業に回収船とヘリコプターを用い,海上と空から捜索を行うことによって回収率の向上を計ってきた.しかし,天候の状態によっては,その日の回収が困難な場合もあり,天候の回復を待って回収作業を行うこととなる.我々は,海上に観測器が降下した後も1週間程度電波を送信しづけるシステムの開発を研究してきた.1998年より,漂流している観測器の位置を正確に知るために,GPS(Global Positioning System)受信装置とNOAA衛星を用いたARGOS送信装置を組み合わせた回収システムの開発を行い,観測器の回収をより確実なものにする方式を取り入れた.2001年に完全防水自立型GPSアルゴスシステムの開発に成功し,実際に気球に搭載して,その飛翔性能試験を行った.飛翔試験の結果は,大変良好であり,将来の回収システムの基本機器として使用できる目処が立ち,大変有効なシステムであることが実証された.本論文では,今回開発・製作したGPSアルゴスシステムの概要および性能評価と将来に向けて更なる開発を行っている現状について報告する.資料番号: SA0200103000
  • 野口克行, 村田功, 福西浩, 岡野章一, 佐藤薫, 冨川喜弘, 山上隆正, 松坂幸彦, 並木道義, 斎藤芳隆
    大気球シンポジウム 平成14年度 57-60 2003年2月  
  • Y. Saito, I. Iijima, Y. Matsuzaka, M. Namiki, M. Toriumi, T. Yamagami, K. Ichimura, T. Kobayashi, K. Matsushima
    AIAA's 3rd Annual Aviation Technology, Integration, and Operations (ATIO) Forum 2003年  査読有り
    Development of a balloon flying at higher altitudes is one of the most attractive trials in balloon technology. In 2002, the ISAS balloon group have succeeded in flying a balloon up to the altitude of 53.0 km using a balloon with a volume of 60,000 m3 made of an ultra-thin polyethylene film with a thickness of 3.4 μm. To go to higher altitudes, it is necessary to make the balloon film much lighter. We started to develop the thinest film within the current technology. We have made a special die for molding a thin polyethylene film, and formed a film with a thickness of 3.0 μm and a width of 110 cm. Using this film, we have made a 5,000 m3 balloon and succeeded in flying the balloon up to an altitude of 47.1 km. In this paper, our approach to the 3.0 μm film and the result of the balloon experiment is described. © 2003 by the American Institute of Aeronautics and Astronautics, Inc.
  • K Kobayashi, S Tsuneta, T Tamura, K Kumagai, Y Katsukawa, S Kubo, T Yamagami, Y Saitoh
    X-RAY AND GAMMA-RAY TELESCOPES AND INSTRUMENTS FOR ASTRONOMY, PTS 1 AND 2 4851 1009-1018 2003年  
    We present the design and initial flight results of a balloon-borne hard X-ray detector system for observing high-resolution spectra of solar flares. The instrument is designed to achieve a 3 keV energy resolution over the energy range of 15-120 keV. The instrument uses sixteen 10 x 10 x 0.5 mm cadmium telluride (CdTe) detectors with indium electrodes that act as Schottky barriers. Pre-flight tests confirmed that all detectors exceeded the target 3 keV resolution. The detector system is designed to optimize radiative cooling in order to achieve the operating temperature of 0degreesC without refrigeration mechanisms. The first flight took place on August 29, 2001 and while no major flares were observed, the instrument operation was verified and a detector temperature of -13degreesC was achieved. The second flight took place on May 24, 1974 and during the 8 hours of level flight at an altitude of 41 km, we succeeded in observing a class M1.1 solar flare.
  • Roger Blanford, Psin Chen, Tuneyoshi Kamae, Grzegorz Madejski, Johnny Ng, Tsunefumi Mizuno, Hiroyasu Tajima, Timothy Thurston, Louis Barbier, Peter Bloser, Thomas Cline, Stanley Hunter, Alice Harding, John Krizmanic, John Mitchell, Robert Streitmatter, Jack Tueller, Edward Groth, Richard Fernholz, Daniel Marlow, Gilles Bogaert, Shuichi Gunji, Hirohisa Sakurai, Yoshitaka Saito, Tadayuki Takahashi, Jun Kataoka, Nobuyuki Kawai, Yasushi Fukazawa, Per Carlson, Wlodzimierz Klamra, Mark Pearce, Claes Ingvar Bjornsson, Claes Fransson, Stefan Larsson, Felix Ryde
    IEEE Nuclear Science Symposium Conference Record 3 1708-1713 2003年  査読有り
    We are developing a new balloon-borne instrument (PoGO), to measure polarization of soft gamma rays (25-200 keV) using asymmetry in azimuth angle distribution of Compton scattering. PoGO will detect 10% polarization in 100mCrab sources in a 6-8 hour observation and bring a new dimension to studies on gamma ray emission/transportation mechanism in pulsars, AGNs, black hole binaries, and neutron star surface. The concept is an adaptation to polarization measurements of well-type phoswich counter technology used in balloon-borne experiments (Welcome-1) and AstroE2 Hard X-ray Detector. PoGO consists of close-packed array of 397 hexagonal well-type phoswich counters. Each unit is composed of a long thin tube (well) of slow plastic scintillator, a solid rod of fast plastic scintillator, and a short BGO at the base. A photomultiplier coupled to the end of the BGO detects light from all 3 scintillators. The rods with decay times < 10 ns, are used as the active elements; while the wells and BGOs, with decay times ∼ 250 ns are used as active anti-coincidence. The fast and slow signals are separated out electronically. When gamma rays entering the field-of-view (fwhm∼ 3deg 2) strike a fast scintillator, some are Compton scattered. A fraction of the scattered photons are absorbed in another rod (or undergo a second scatter). A valid evnet requires one clean fast signal of pulse-height compatible with photo-absorption (> 20keV) and one or more compatible with Compton scattering (< 10keV). Studies based on EGS4 (with polarization features) and Geant4 predict excellent background rejection and high sensitivity.
  • 大気球シンポジウム集録 55 2003年  
  • 大気球シンポジウム集録 47 2003年  
  • S. Torii, T. Tamaura, N. Tateyama, K. Yoshida, T. Kashiwagi, K. Hibino, K. Anraku, T. Yamashita, F. Makino, J. Nishimura, T. Yamagami, Y. Saito, M. Shibata, Y. Katayose, Y. Uchihori, H. Kitamura, M. Takayanagi, K. Kasahara, H. Murakami, T. Kobayashi, Y. Komori, K. Mizutani, T. Yuda
    Nuclear Physics B - Proceedings Supplements 113(1-3) 103-110 2002年12月  査読有り
    The CALorimetric Electron Telescope, CALET, mission is proposed for the Japanese Experiment Module Exposure Facility of the International Space Station. Major goals of the mission are precise measurements of the electrons in a few GeV - 10 TeV and the gamma-rays in 100 MeV - several TeV, keeping an energy resolution of a few % over 100 GeV. From the measurements, a systematic investigation of high-energy electromagnetic process in universe will be performed. A detection of SUSY particle which is a candidate of the dark matter would also be expected. The detector is composed of an imaging calorimeter of scintillating fibers and a total absorption calorimeter. Total thickness of the absorber is 45 r.l for electro-magnetic particles and 2.1 m.f.p for protons. Total weight of the payload is nearly 2,200 kg, and the effective geometrical factor should be ∼ 1.0 M2sr. The hadron rejection power can be 106 for electrons.
  • K Kasahara, E Mochizuki, S Torii, T Tamura, N Tateyama, K Yoshida, T Yamagami, Y Saito, J Nishimura, H Murakami, T Kobayashi, Y Komori, M Honda, T Ohuchi, S Midorikawa, T Yuda
    PHYSICAL REVIEW D 66(5) id052004 2002年9月  査読有り
    We observed atmospheric gamma rays around 10 GeV at balloon altitudes (15-25 km) and at a mountain (2770 m a.s.l). The observed results were compared with Monte Carlo calculations to find that an interaction model (Lund FRITIOF1.6) used in an old neutrino flux calculation was not good enough for describing the observed values. Instead, we found that two other nuclear interaction models, Lund FRITIOF7.02 and DPMJET3.03, gave much better agreement with the observations. Our data will serve for examining nuclear interaction models and for deriving a reliable absolute atmospheric neutrino flux in the GeV region.
  • 斎藤 芳隆, 松坂 幸彦, 並木 道義, 太田 茂雄, 鳥海 道彦, 山上 隆正, 横田 力男, 松島 清穂
    宇宙科学研究所報告 特集 44(44) 15-25 2002年3月  査読有り
    宇宙科学研究所気球部門では,10kg程度の観測器をより高高度に到達させる気球を開発している.従来,気球用フィルムは既存の5.8μm厚のものを用いてきたが,1998年に厚み3.4μmの気球用ポリエチレンフィルムを開発し,かつてない高高度を飛翔する気球開発が可能となった.これを受け,1999年にはこのフィルムを用いた最初の気球の製作し,飛翔させることに成功している.その後,順次,気球の大型化を行ない,2000年に二機の体積5,000m^3の気球飛翔を成功させ,2001年には,体積30,000m^3の気球を用いて遂に日本最高到達高度を更新し,高度50.7kmまで到達するに至った.また,排気口をつけた気球の開発も開始しており,こちらも2001年に最初の体積1,000m^3の気球を水平浮遊させることに成功した.本論文では,これらの飛翔性能試験の結果について報告する.資料番号: SA0200093000
  • 並木 道義, 山口 堅治, 松坂 幸彦, 鳥海 道彦, 本田 秀之, 斎藤 芳隆, 井筒 直樹, 山上 隆正, 廣澤 春任, 佐藤 祐一, 森川 公夫
    宇宙科学研究所報告 特集 44(44) 1-13 2002年3月  査読有り
    観測装置の大型化およびより高高度における観測を希望する科学者が増えてきたために,平成10年度に三陸大気球観測所の放球場を20m拡張し,その先端に大型放球装置を設置した.大型放球装置の完成により,容積 1,000,000m^3,総浮力2トン程度までの気球を放球することが可能になった.この装置の完成にともない,従来の立て上げ放球方法を改良し,気球被膜により損傷を与えないセミダイナミック放球方式が開発され実用化されてきた.この放球方法は,気球を一気に大型放球装置の上に立て上げる方式であるため,放球時に地上から数百mまでの風向・風速を正確に把握する事が放球の正否を決定する大きな要因となる.平成12年度に地上から数百mまでの低層風を測定するために,ドップラー音波レーダーを用いた低層風観測装置を導入した.本論文では三陸大気球観測所に設置されたドップラー音波レーダーの機能と有用性について述べ,実際に運用している状況について報告する.資料番号: SA0200092000
  • S. Torii, T. Tamura, N. Tateyama, K. Yoshida, T. Ouchi, J. Nishimura, T. Yamagami, Y. Saito, H. Murakami, T. Kobayashi, Y. Komori, K. Kasahara, T. Yuda
    Advances in Space Research 30(5) 1273-1282 2002年  査読有り
    We have developed the balloon-borne electron telescope with scintillating fibers (BETS) for the observation of cosmic-ray electrons in 10 -100 GeV. The detector is an imaging calorimeter consisting of the scintillating-fiber belts of 36 layers (each 280 mm wide) and the 8 plates of lead (each 5mm thick). The rejection of the background protons was performed with an efficiency of ~2000 using the shower imaging capability with high granulation. The balloon observations were carried out in 1997 and in 1998 at Sanriku Balloon Center (ISAS) in Japan. The observed electron flux is consistent around a few 10 GeV with the recent results reported by the HEAT group. Comparing the flux with theoretical expectations by a diffusion model, the best fit is obtained for the model of a diffusion coefficient of 2 × 10 28 (E/GeV) 0 .3 cm 2 /sec in the SN rate of once per 30 years in the Galaxy. In January, 2003, a newly-developed scintillating fiber detector will be borne on the Polar Patrol Balloon (PPB) in Antarctica and exposed for 30 days to the cosmic radiations. We can increase the statistics of electron number in 10-1000 GeV by 10 times comparing to the present data. © 2002 COSPAR. Published by Elsevier Science Ltd. All rights reserved.
  • Y. Saito, T. Yamagami, Y. Matsuzaka, M. Namiki, S. Ohta, M. Toriumi, R. Yokota, F. Makino, T. Matsumoto, H. Hirosawa
    Advances in Space Research 30(5) 1159-1165 2002年  査読有り
    The balloon group at the Institute of Space and Astronautical Science (ISAS) has studied to develop high altitude balloons that could reach an altitude of more than 40 km with a light payload in order to meet the requirements of observations at extremely high altitudes. In 1999, we developed a ultra thin balloon film with a thickness of 3.4 μm. It is synthesized with a new catalyst, metallocene, and has a ultimate strength of ~650 kg/cm 2 at -80°C. Using the film, we made the first balloon with 1,000 m 3 in volume and 2.6 kg in weight. We launched the balloon from Sanriku Balloon Center on September 1, 1999 and it successfully reached an altitude of 37.1 km. In 2000, we prepared the second balloon with 5,000 m 3 in volume with 6.8 kg in weight. It was launched on June 7, 2000 and it successfully reached an altitude of 43.0 km. Such light weight balloons are planned to be used for scientific studies in near future. © 2002 COSPAR. Published by Elsevier Science Ltd. All rights reserved.
  • T. Yamagami, M. Namiki, Y. Matsuzaka, M. Toriumi, Y. Uchida, S. Hirayama, T. Komatsu, H. Honda, N. Izutsu, Y. Saito, S. Ohta, H. Hirosawa, T. Matsumoto
    Advances in Space Research 30(5) 1145-1148 2002年  査読有り
    The Sanriku Balloon Center (SBC), which belongs to the Institute of Space and Astronautical Science, was built in 1971. The launching field of SBC was 140 m in length and 20 m in width. In Japan, the balloon launching method that we have been using since 1971 is a kind of static launching method. In 1998, we extended the launching field 20 m in length and created a new launcher at this point. We have recently developed a "semi-dynamic" launching method. This newly developed launcher is different from the launcher used in the dynamic launching method, it is fixed to the ground creating freedom of rotation around the vertical axis. It is also possible for the launcher to lift up a payload to a height of 5 m from the ground. We succeeded in launching the first test balloon by using this new launching method on September 6, 1999. Utilizing the new launching machine, it became possible to launch a balloon with a volume of 1,000,000 m 3 and a total lift of 2 tons, even in Japan. © 2002 COSPAR. Published by Elsevier Science Ltd. All rights reserved.
  • K Kobayashi, S Tsuneta, T Tamura, K Kumagai, Y Katsukawa, S Kubo, T Yamagami, Y Saitoh
    MULTI-WAVELENGTH OBSERVATIONS OF CORONAL STRUCTURE AND DYNAMICS 13 429-430 2002年  査読有り
    We have developed a balloon-borne hard X-ray detector system for observing high resolution hard X-ray spectra of solar flares. The instrument consists of 16 cadmium telluride detectors, each 10 x 10 x 0.5 mm in size. It has a 3 keV energy resolution over the energy range of 15-100 keV. The first flight of this instrument took place from Sanriku, Japan on August 29, 2001. While no large flares occurred during the 3 hours of level flight, detector performance was verified, and one possible microflare detected.
  • K. Kasahara, E. Mochizuki, S. Torii, T. Tamura, N. Tateyama, K. Yoshida, T. Yamagami, Y. Saito, J. Nishimura, H. Murakami, T. Kobayashi, Y. Komori, M. Honda, T. Ohuchi, S. Midorikawa, T. Yuda
    Physical Review D - Particles, Fields, Gravitation and Cosmology 66(5) 2002年  査読有り
    We observed atmospheric gamma rays around 10 GeV at balloon altitudes (15–25 km) and at a mountain (2770 m a.s.l). The observed results were compared with Monte Carlo calculations to find that an interaction model (Lund FRITIOF1.6) used in an old neutrino flux calculation was not good enough for describing the observed values. Instead, we found that two other nuclear interaction models, Lund FRITIOF7.02 and DPMJET3.03, gave much better agreement with the observations. Our data will serve for examining nuclear interaction models and for deriving a reliable absolute atmospheric neutrino flux in the GeV region. © 2002 The American Physical Society.
  • 大気球シンポジウム集録 2002年  
  • Motoki Takahashi, Shinpei Shibata, Ken'ichi Torii, Yoshitaka Saito, Nobuyuki Kawai, Masaharu Hirayama, Tadayasu Dotani, Shuichi Gunji, Hirohisa Sakurai, Ingrid H. Stairs, Richard N. Manchester
    Astrophysical Journal 554(1 PART 1) 316-321 2001年6月10日  査読有り
    We have detected pulsed X-ray emission from the fastest millisecond pulsar known, PSR B1937+ 21 (P = 1.558 ms), with ASCA. The pulsar is detected as a point source above ∼ 1.7 keV, with no indication of nebulosity. The source flux in the 2-10 keV band is found to be f= (3.7 ± 0.6) × 10-13 ergs s-1 cm-2, which implies an isotropic luminosity of LX = 4πD2f∼ (5.7 ± 1.0) × 1032(D/3.6 kpc)2 ergs s-1, where D is the distance, and an X-ray efficiency of ∼ 5 × 10-4, relative to the spin-down power of the pulsar. The pulsation is found at the period predicted by the radio ephemeris with a very narrow primary peak, the width of which is about 1/16 phase (∼ 100 μs), near the time resolution limit (61 μs) of the observation. The instantaneous flux in the primary peak (1/16 phase interval) is found to be (4.0 ± 0.8) × 10-12 ergs s-1 cm-2. Although there is an indication for the secondary peak, we consider its statistical significance too low to claim a definite detection. The narrow pulse profile and the detection in the 2-10 keV band imply that the X-ray emission is caused by the magnetospheric particle acceleration. Comparison of X-ray and radio arrival times of pulses indicates, within the timing errors, that the X-ray pulse is coincident with the radio interpulse.
  • Ken'ichi Torii, Y. Saito, F. Nagase, T. Yamagami, T. Kamae, M. Hirayama, N. Kawai, I. Sakurai, M. Namiki, S. Shibata, S. Gunji, J. P. Finley
    Astrophysical Journal 551(2 PART 2) 151-154 2001年4月  査読有り
    ASCA's long look at the 288 ms radio pulsar PSR J0631 + 1036 reveals coherent X-ray pulsation from this source for the first time. The source was first detected in a serendipitous Einstein observation and later identified as a radio pulsar. Possible pulsation in the γ-ray band has been detected in the Compton Gamma Ray Observatory EGRET data. The X-ray spectrum in the ASCA band is characterized by a hard power-law-type emission with a photon index of ≃2.3, when fitted with a single power-law function modified with absorption. An additional blackbody component of kT ≃0.14 keV increases the quality of the spectral fit. The observed X-ray flux is 2.1 × 1-13 ergs s-1 cm-2 in the 1-10 keV band. We find that many characteristics of PSR J0631 + 1036 are similar to those of middle-aged γ-ray pulsars such as PSR B1055-52, PSR B0633 + 17 (Gerninga), and PSR B0656+14.
  • Ken'ichi Torii, Y. Saito, F. Nagase, T. Yamagami, T. Kamae, M. Hirayama, N. Kawai, I. Sakurai, M. Namiki, S. Shibata, S. Gunji, J. P. Finley
    Astrophysical Journal Letters 551(2) L151-L154 2001年4月  査読有り
    © 2001. The American Astronomical Society. All rights reserved. ASCA’s long look at the 288 ms radio pulsar PSR J06311036 reveals coherent X-ray pulsation from this source for the first time. The source was first detected in a serendipitous Einstein observation and later identified as a radio pulsar. Possible pulsation in the g-ray band has been detected in the Compton Gamma Ray Observatory EGRET data. The X-ray spectrum in the ASCA band is characterized by a hard power-law–type emission with a photon index of 2.3, when fitted with a single power-law function modified with absorption. An additional blackbody component of kT 0.14 keV increases the quality of the spectral fit. The observed X-ray flux is 2.1 # 1013 ergs s1 cm2 in the 1–10 keV band. We find that many characteristics of PSR J06311036 are similar to those of middle-aged g-ray pulsars such as PSR B105552, PSR B063317 (Geminga), and PSR B065614.

主要なMISC

 68
もっとみる

主要な講演・口頭発表等

 102
もっとみる

所属学協会

 2

主要な共同研究・競争的資金等の研究課題

 16
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● 自由記述

 1
  • ひとこと    
    昼休みにも熱心に超小型スーパープレッシャー気球の飛翔制御の研究を行っています(ソフトテニスともいう)。いかに気球に上手に網(ネットではなく、ガット)をかぶせるが重要です。

● 指導学生等の数

 6
  • 年度
    2018年度(FY2018)
  • 年度
    2019年度(FY2019)
    修士課程学生数
    1
    連携大学院制度による学生数
    1
  • 年度
    2020年度(FY2020)
  • 年度
    2021年度(FY2021)
    修士課程学生数
    1
    連携大学院制度による学生数
    1
  • 年度
    2022年度(FY2022)
    修士課程学生数
    1
    連携大学院制度による学生数
    1
  • 年度
    2023年度(FY2023)

● 専任大学名

 2
  • 専任大学名
    総合研究大学院大学(SOKENDAI)
  • 専任大学名
    総合研究大学院大学(SOKENDAI)

● 所属する所内委員会

 2
  • 所内委員会名
    ISASニュース編集委員会
  • 所内委員会名
    研究情報委員会
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