Motokazu Noguchi
Advanced Technology Center
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Featured researches published by Motokazu Noguchi.
Proceedings of SPIE | 2004
Kiyoshi Ichimoto; Saku Tsuneta; Yoshinori Suematsu; Toshifumi Shimizu; Masashi Otsubo; Yoshihiro Kato; Motokazu Noguchi; Masao Nakagiri; Tomonori Tamura; Yukio Katsukawa; Masahito Kubo; Yasushi Sakamoto; Hirohisa Hara; Kenji Minesugi; Akira Ohnishi; Hideo Saito; Noboru Kawaguchi; Tadashi Matsushita; Toshitaka Nakaoji; Kazuhiro Nagae; Joji Sakamoto; Yoshihiro Hasuyama; Izumi Mikami; Keizo Miyawaki; Yasushi Sakurai; Nobuaki Kaido; Toshihida Horiuchi; Sadanori Shimada; Toshio Inoue; Masaaki Mitsutake
The solar optical telescope onboard the Solar-B is aimed to perform a high precision polarization measurements of the solar spectral lines in visible wavelengths to obtain, for the first time, continuous sets of high spatial resolution (~0.2arcsec) and high accuracy vector-magnetic-field map of the sun for studying the mechanisms driving the fascinating activity phenomena occurring in the solar atmosphere. The optical telescope assembly (OTA) is a diffraction limited, aplanatic Gregorian telescope with an aperture of Φ500mm. With a collimating lens unit and an active folding mirror, the OTA provides a pointing-stabilized parallel beam to the focal plane package (FPP) with a field of view of about 360x200arcsec. In this paper we identify the key technical issues of OTA for achieving the mission goal and describe the basic concepts in its optical, mechanical and thermal designs. The strategy to verify the in-orbit performance of the telescope is also discussed.
Proceedings of SPIE | 2004
Toshifumi Shimizu; Shin'ichi Nagata; Chris Edwards; Theodore D. Tarbell; Yasuhiro Kashiwagi; Kazuhide Kodeki; Osamu Ito; Hiroyuki Miyagawa; Masayuki Nagase; Syunsaku Inoue; Kazumasa Kaneko; Yasushi Sakamoto; Kiyoshi Ichimoto; Saku Tsuneta; Shiro Miki; Makoto Endo; Masaki Tabata; Toshitaka Nakaoji; Keiichi Matsuzaki; Ken Kobayashi; Masashi Otsubo; Yoshinori Suematsu; K. Kumagai; Motokazu Noguchi; Tomonori Tamura; Masao Nakagiri
Extremely stable pointing of the telescope is required for images on the CCD cameras to accurately measure the nature of magnetic field on the sun. An image stabilization system is installed to the Solar Optical Telescope onboard SOLAR-B, which stabilizes images on the focal plane CCD detectors in the frequency range lower than about 20Hz. The system consists of a correlation tracker and a piezo-based tip-tilt mirror with servo control electronics. The correlation tracker is a high speed CCD camera with a correlation algorithm on the flight computer, producing a pointing error from series of solar granule images. Servo control electronics drives three piezo actuators in the tip-tilt mirror. A unique function in the servo control electronics can put sine wave form signals in the servo loop, allowing us to diagnose the transfer function of the servo loop even on orbit. The image stabilization system has been jointly developed by collaboration of National Astronomical Observatory of Japan/Mitsubishi Electronic Corp. and Lockheed Martin Advanced Technology Center Solar and Astrophysics Laboratory. Flight model was fabricated in summer 2003, and we measured the system performance of the flight model on a laboratory environment in September 2003, confirming that the servo stability within 0-20 Hz bandwidth is 0.001-0.002 arcsec rms level on the sun.
International Astronomical Union Colloquium | 1993
Kiyoshi Ichimoto; Takashi Sakurai; Yohei Nishino; Kazuya Shinoda; Motokazu Noguchi; K. Kumagai; H. Imai; M. Irie; Masakuni Miyashita; N. Tanaka; Issei Sano; Y. Suematsu; E. Hiei
The Solar Flare Telescope was constructed at Mitaka in 1989. This instrument comprises four telescopes which respectively observe (a) Hα images, (b) continuum images, (c) vector magnetic fields, and (d) velocity fields in the photosphere. The instrument aims at the study of energy build-up and energy release in solar flares, in cooperation with the Solar-A satellite. The whole system has been in regular operation since 1992 July. The methods of measuring the magnetic and velocity fields are described.
Solar Physics | 2008
Saku Tsuneta; Kiyoshi Ichimoto; Yukio Katsukawa; Shin’ichi Nagata; Masashi Otsubo; Toshifumi Shimizu; Y. Suematsu; Masao Nakagiri; Motokazu Noguchi; Theodore D. Tarbell; A. M. Title; R. A. Shine; W. Rosenberg; C. Hoffmann; B. Jurcevich; G. Kushner; M. Levay; Bruce W. Lites; David F. Elmore; Tadashi Matsushita; Noboru Kawaguchi; H. Saito; Izumi Mikami; L. D. Hill; Jerry K. Owens
Solar Physics | 2008
Yoshinori Suematsu; Saku Tsuneta; Kiyoshi Ichimoto; Toshifumi Shimizu; Masashi Otsubo; Yukio Katsukawa; Masao Nakagiri; Motokazu Noguchi; Tomonori Tamura; Yuko Kato; Hirohisa Hara; Masahito Kubo; I. Mikami; H. Saito; T. Matsushita; N. Kawaguchi; T. Nakaoji; K. Nagae; S. Shimada; Norihide Takeyama; T. Yamamuro
Solar Physics | 2008
Kiyoshi Ichimoto; Bruce W. Lites; David F. Elmore; Yoshinori Suematsu; S. Tsuneta; Yukio Katsukawa; Toshifumi Shimizu; R. A. Shine; Theodore D. Tarbell; Alan M. Title; Junko Kiyohara; Kazuya Shinoda; G. Card; A. Lecinski; K. V. Streander; Masao Nakagiri; Masakuni Miyashita; Motokazu Noguchi; C. Hoffmann; T. Cruz
Publications of the Astronomical Society of Japan | 1995
Takashi Sakurai; Kiyoshi Ichimoto; Yohei Nishino; Kazuya Shinoda; Motokazu Noguchi; E. Hiei; T Li; Fb He; Wj Mao; Ht Lu; Gx Ai; 赵昭旺; S Kawakami; Jc Chae
Publications of the Astronomical Society of Japan | 1999
Kiyoshi Ichimoto; Motokazu Noguchi; Nobuyuki Tanaka; K. Kumagai; Kazuya Shinoda; Tetsuo Nishino; Takeo Fukuda; Takashi Sakurai; Norihide Takeyama
Advances in Space Research | 2004
Yoichiro Hanaoka; Takashi Sakurai; Motokazu Noguchi; Kiyoshi Ichimoto
Astronomical Telescopes and Instrumentation | 2003
Yoichiro Hanaoka; Motokazu Noguchi; Takashi Sakurai; Kiyoshi Ichimoto
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