Your search keyword '"Hirahara, Masafumi"' showing total 179 results

1. Development of an electron impact ion source with high ionization efficiency for future planetary missions

Author

Kawashima, Oya, Yanase, Naho, Okitsu, Yoshihisa, Hirahara, Masafumi, Saito, Yoshifumi, Karouji, Yuzuru, Yamamoto, Naoki, Yokota, Shoichiro, and Kasahara, Satoshi

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Space Physics

Abstract

Ion sources using electron impact ionization (EI) methods have been widely accepted in mass spectrometry for planetary exploration missions because of their simplicity. Previous space-borne mass spectrometers were primarily designed with the EI method using rhenium tungsten alloy filaments, enabling up to 200 uA emission in typical cases. The emission level is desired to be enhanced because the sensitivity of mass spectrometers is a critical requirement for the future in situ mass spectrometry related to the measurement of trace components in planetary samples. In this study, we developed a new high-emission EI ion source using a Y2O3-coated iridium filament, which has a lower work function than rhenium tungsten alloy. The size of the ion source was 30 mm * 26 mm * 70 mm, and its weight was 70 g. We confirmed that when consuming 3.0 W power, the ion source emits more than 2 mA electrons, which is 10 times greater than the previous models electron emission level. Ionization efficiency of the EI ion source is proportional to the amount of electron emission, which implies our new model increased the ionization efficiency 10 times. We conducted performance tests on the prototype with the 3.0 W heating condition, confirming a high ionization efficiency (10^4 nA/Pa). In addition, we conducted endurance tests of the ion source and demonstrated the persistence of the ionization efficiency for 30 min * 100 cycles., Comment: 25 pages, 8 figures, submitted to Planetary and Space Science

Published

2022

2. In-situ measurement techniques for space plasmas based on floating-mode avalanche photodiode and electrostatic energy-per-charge analyzer

Author

Hirahara, Masafumi, Tanaka, Seishiro, Kataoka, Hinako, Kasahara, Satoshi, and Kubo, Shin

Published

2023

3. Reimei Satellite Observations of Alfvénic Interaction Modulating Inverted‐V Electrons and Filamentary Auroral Forms at the Poleward Edge of a Discrete Arc.

Author

Hirahara, Masafumi, Ebihara, Yusuke, Kitamura, Naritoshi, Sakanoi, Takeshi, Asamura, Kazushi, Takada, Taku, and Saito, Hirobumi

Subjects

ELECTRON distribution, PLASMA Alfven waves, AURORAS, ELECTRIC fields, ELECTRONS

Abstract

We present an event based on Reimei satellite observations in the low‐altitude midnight auroral region, showing that intense and clear energy‐dispersed electron precipitations, repetitively generated by field‐aligned accelerations due to dispersive Alfvén waves, were modulating inverted‐V electrons. These Alfvénic electrons had peak energies equal to or slightly larger than those of the inverted‐Vs and were associated with the filamentary auroral forms rapidly streaming at the poleward edge of a broad discrete arc. This arc was caused by the inverted‐V accompanied by ion depletions produced by quasi‐electrostatic parallel potential drop. Assuming instantaneous electron accelerations over a wide energy range in a single location and a simple time‐of‐flight effect for the energy‐time dispersions, the Alfvénic source distances were estimated 1,500 ± 500 km above the satellite altitude of ∼676 km, a lower bound since the interaction locations are realistically distributed in altitudinally extended regions. The electron characteristics in detailed energy‐pitch angle distributions obtained at high time resolution can be categorized into: (a) original inverted‐V fluxes energized by quasi‐electrostatic upward electric field, (b) accelerated and decelerated/reduced inverted‐V fluxes, (c) field‐aligned energy‐dispersed precipitations accelerated by dispersive Alfvén waves, and (d) upwelling secondary components effectively produced by the field‐aligned precipitations particularly at energies of a few tens of eV. This event is useful to reveal the interactions between the inverted‐V and Alfvénic electrons and their related ionospheric effects in the magnetosphere‐ionosphere coupling processes. The detailed energy‐pitch angle distributions presented here provide constraints for models of these interactions and processes. Key Points: Field‐aligned Alfvénic accelerations of electrons repetitively occurred at the poleward edge of broad auroral arc in the nightside ovalEnergy‐dispersed electron signatures modulated the inverted‐V electron distributions and implied short (1,000–2,000 km) source distancesThe Alfvénic electrons were associated with repetitive filamentary auroral forms streaming at the edge of the discrete arc [ABSTRACT FROM AUTHOR]

Published

2024

4. Field‐Aligned Currents Associated With Pulsating Auroral Patches: Observation With Magneto‐Impedance Magnetometer (MIM) Onboard Loss Through Auroral Microburst Pulsations (LAMP) Sounding Rocket.

Author

Nosé, Masahito, Hosokawa, Keisuke, Nomura, Reiko, Teramoto, Mariko, Asamura, Kazushi, Miyoshi, Yoshizumi, Mitani, Takefumi, Sakanoi, Takeshi, Namekawa, Taku, Kawano, Takeshi, Iwanaga, Yoshihiro, Tatematsu, Shunichi, Hirahara, Masafumi, Halford, Alexa, Shumko, Mykhaylo, Lessard, Marc R., Lynch, Kristina, Paschalidis, Nicholaos, Jaynes, Allison N., and McHarg, Matthew G.

Subjects

AURORAS, MAGNETIC field measurements, ROCKETS (Aeronautics), MICROBURSTS, MAGNETIC declination, MAGNETOMETERS

Abstract

We made observations of magnetic field variations in association with pulsating auroras with the magneto‐impedance sensor magnetometer (MIM) carried by the Loss through Auroral Microburst Pulsations (LAMP) sounding rocket that was launched at 11:27:30 UT on 5 March 2022 from Poker Flat Research Range, Alaska. At an altitude of 200–250 km, MIM detected clear enhancements of the magnetic field by 15–25 nT in both the northward and westward components. From simultaneous observations with the ground all‐sky camera, we found that the footprint of LAMP at the 100 km altitude was located near the center of a pulsating auroral patch. The auroral patch had a dimension of ∼90 km in latitude and ∼25 km in longitude, and its major axis was inclined toward northwest. These observations were compared with results of a simple model calculation, in which local electron precipitation into the thin‐layer ionosphere causes an elliptical auroral patch. The conductivity within the patch is enhanced in the background electric field and as a result, the magnetic field variations are induced around the auroral patch. The model calculation results can explain the MIM observations if the electric field points toward southeast and one of the model parameters is adjusted. We conclude that the pulsating auroral patch in this event was associated with a one‐pair field‐aligned current that consists of downward (upward) currents at the poleward (equatorward) edge of the patch. This current structure is maintained even if the auroral patch is latitudinally elongated. Key Points: Magneto‐impedance (MI) sensor was carried by a sounding rocket and first applied to magnetic field measurement in spaceMagnetic field variations were observed when the footprint of the payload was located near the center of an auroral patchThe magnetic field variations are thought to be caused by field‐aligned currents flowing at the edges of the pulsating auroral patch [ABSTRACT FROM AUTHOR]

Published

2024

5. On the relationship between energy input to the ionosphere and the ion outflow flux under different solar zenith angles

Author

Kitamura, Naritoshi, Seki, Kanako, Keika, Kunihiro, Nishimura, Yukitoshi, Hori, Tomoaki, Hirahara, Masafumi, Lund, Eric J., Kistler, Lynn M., and Strangeway, Robert J.

Published

2021

6. Latitudinal Profiles of Auroral Forms/Motions and Plasma Properties Based on Simultaneous Image‐Particle Measurements by Reimei in the Midnight Auroral Oval.

Author

Hirahara, Masafumi, Fukuda, Yoko, Ebihara, Yusuke, Seki, Kanako, Sakanoi, Takeshi, Asamura, Kazushi, Takada, Taku, Yamazaki, Atsushi, Kasaba, Yasumasa, and Saito, Hirobumi

Subjects

AURORAS, PARTICLE acceleration, ELECTRON distribution, PLASMA Alfven waves, PLASMA dynamics, LATITUDE

Abstract

We present the simultaneous and conjugated auroral emission and particle data obtained by a low‐altitude polar‐orbiting micro‐satellite, Reimei, for elucidating their latitudinal distributions and variations in the nightside auroral oval. Here are reported a few notable examples of the Reimei observations with high time and spatial resolutions, namely ∼120 msec. and ∼1.2 km × 1.2 km for multispectral auroral images and 40 msec. for energy‐pitch angle distributions of electrons and ions with energies of 10 eV–12 keV, respectively. The auroral images show various fine‐scale auroral activities characterized by the following types of auroral forms and variations: faint bands, streaming multiple arcs, shearing arcs, and vortices/curls, which are typical of the latitudinal properties of auroras. The particle analyzer simultaneously observed various properties of electron energy‐pitch angle and latitudinal distributions, and their temporal variations, each of which corresponds to a type of the auroral activities. Their features are summarized below. Reimei repetitively observed inverted‐V signatures of low‐energy (<1 keV) field‐aligned electrons in addition to the higher‐energy (several keV) diffuse electrons in low‐latitude auroral oval. In more active regions at higher latitudes, the dominant energy flux responsible for the multiple‐arc emissions was carried by the well‐known inverted‐V electron precipitation. The rapidly rotating vortices or so‐called curls of fine‐scale discrete auroras near the poleward boundary of the auroral oval were closely associated with the significant energy fluxes of spiky field‐aligned electron bursts with energy‐time dispersions produced by dispersive Alfvén waves. Key Points: Plasma observations with auroral imaging in nightside auroral oval present clear characteristics of several types of particle accelerationsThe image‐particle data reveal correlations and latitudinal properties/dependence of plasma dynamics with the forms and motions of aurorasEnergy‐pitch angle distributions are crucial for elucidating the particle acceleration processes recognized in energy‐time spectrograms [ABSTRACT FROM AUTHOR]

Published

2024

7. Triple‐Dome Electrostatic Energy Analyzer With 360° Field‐Of‐View for Simultaneous Measurements of Ions and Electrons

Author

Hirahara, Masafumi, primary, Takei, Tomomi, additional, Yokota, Shoichiro, additional, and Yanagimachi, Tomoki, additional

Published

2023

8. Fundamental development of “floating‐mode” avalanche photodiode for low‐energy electron measurements in space plasma

Author

Tanaka, Seishiro, primary, Hirahara, Masafumi, additional, Kasahara, Satoshi, additional, and Kubo, Shin, additional

Published

2023

9. Mio—First Comprehensive Exploration of Mercury’s Space Environment: Mission Overview

Author

Murakami, Go, Hayakawa, Hajime, Ogawa, Hiroyuki, Matsuda, Shoya, Seki, Taeko, Kasaba, Yasumasa, Saito, Yoshifumi, Yoshikawa, Ichiro, Kobayashi, Masanori, Baumjohann, Wolfgang, Matsuoka, Ayako, Kojima, Hirotsugu, Yagitani, Satoshi, Moncuquet, Michel, Wahlund, Jan-Erik, Delcourt, Dominique, Hirahara, Masafumi, Barabash, Stas, Korablev, Oleg, and Fujimoto, Masaki

Published

2020

10. Mission Data Processor Aboard the BepiColombo Mio Spacecraft: Design and Scientific Operation Concept

Author

Kasaba, Yasumasa, Takashima, Takeshi, Matsuda, Shoya, Eguchi, Sadatoshi, Endo, Manabu, Miyabara, Takeshi, Taeda, Masahiro, Kuroda, Yoshikatsu, Kasahara, Yoshiya, Imachi, Tomohiko, Kojima, Hirotsugu, Yagitani, Satoshi, Moncuquet, Michel, Wahlund, Jan-Erik, Kumamoto, Atsushi, Matsuoka, Ayako, Baumjohann, Wolfgang, Yokota, Shoichiro, Asamura, Kazushi, Saito, Yoshifumi, Delcourt, Dominique, Hirahara, Masafumi, Barabash, Stas, Andre, Nicolas, Kobayashi, Masanori, Yoshikawa, Ichiro, Murakami, Go, and Hayakawa, Hajime

Published

2020

11. Development of an electron impact ion source with high ionization efficiency for future planetary missions

Author

Kawashima, Oya, primary, Yanase, Naho, additional, Okitsu, Yoshihisa, additional, Hirahara, Masafumi, additional, Saito, Yoshifumi, additional, Karouji, Yuzuru, additional, Yamamoto, Naoki, additional, Yokota, Shoichiro, additional, and Kasahara, Satoshi, additional

Published

2022

12. High-energy electron experiments (HEP) aboard the ERG (Arase) satellite

Author

Mitani, Takefumi, Takashima, Takeshi, Kasahara, Satoshi, Miyake, Wataru, and Hirahara, Masafumi

Published

2018

13. Medium-energy particle experiments—electron analyzer (MEP-e) for the exploration of energization and radiation in geospace (ERG) mission

Author

Kasahara, Satoshi, Yokota, Shoichiro, Mitani, Takefumi, Asamura, Kazushi, Hirahara, Masafumi, Shibano, Yasuko, and Takashima, Takeshi

Published

2018

14. イオンビームラインを用いた宇宙プラズマ粒子計測用二重殻型分析器の較正実験−静電型エネルギー分析用電極のセレーション化の効果−

Author

HIRAHARA, Masafumi, TAKASU, Atsuya, SUGIMOTO, Ichiro, and TAKEI, Tomomi

Abstract

令和3年度宇宙科学に関する室内実験シンポジウム（2022年2月28日-3月1日. オンライン開催), 2022 Symposium on Laboratory Experiment for Space Science (February 28-March 1, 2022. Online Meeting), 資料番号: SA6000178005, レポート番号: 5

Published

2022

15. 宇宙地球結合系機構の直接探査に向けたFACTORS計画の概要

Author

HIRAHARA, Masafumi, SAITO, Yoshifumi, KOJIMA, Hirotsugu, ASAMURA, Kazushi, SAKANOI, Takeshi, MIYOSHI, Yoshizumi, KITAMURA, Naritoshi, and YAMAUCHI, Masatoshi

Abstract

第22回宇宙科学シンポジウム (2022年1月6日-7日. オンライン開催), 22nd Space Science Symposium (January 6-7, 2022. Online Meeting), 資料番号: SA6000176007, レポート番号: S2-002

Published

2022

16. Small satellite REIMEI for auroral observations

Author

Saito, Hirobumi, Hirahara, Masafumi, Mizuno, Takahide, Fukuda, Seisuke, Fukushima, Yousuke, Asamura, Kazushi, Nagamatsu, Hiroyuki, Tanaka, Koji, Sone, Yoshitsugu, Okuizumi, Nobukatsu, Mita, Makoto, Uno, Masatoshi, Yanagawa, Yoshimitsu, Takahara, Takuya, Kaneda, Ryosuke, Honma, Takashi, Sakanoi, Takeshi, Miura, Akira, Ikenaga, Toshinori, Ogawa, Keita, and Masumoto, Yasunari

Published

2011

17. 観測ロケット搭載用熱-低エネルギー帯プラズマ粒子分析器の開発

Author

ASAMURA, Kazushi, YOKOTA, Shoichiro, SAITO, Yoshifumi, and HIRAHARA, Masafumi

Abstract

令和2年度宇宙科学に関する室内実験シンポジウム（2021年3月5日. オンライン開催), 2021 Symposium on Laboratory Experiment for Space Science (March 5, 2021. Online Meeting), PDF再処理の為、2023年3月7日に差替, 資料番号: SA6000161024, レポート番号: 24

Published

2021

18. Current Status of the FACTORS mission for Exploring the Space-Earth Coupling System: Spacecraft Configuration for Formation Flight and Orbital Disturbance and Control

Author

HIRAHARA, Masafumi, SAITO, Yoshifumi, KOJIMA, Hirotsugu, ASAMURA, Kazushi, YAMAUCHI, Masatoshi, SAKANOI, Takeshi, MIYOSHI, Yoshizumi, KITAMURA, Naritoshi, and SUGIMOTO, Toshihide

Abstract

第21回宇宙科学シンポジウム (2021年1月6日-7日. オンライン開催), 21st Space Science Symposium (January 6-7, 2021. Online Meeting), 資料番号: SA6000163138, レポート番号: g25-1

Published

2021

19. Current Status of FACTORS Science Strategy

Author

FACTORSオーロラ観測チーム, MIYOSHI, Yoshizumi, KITAMURA, Naritoshi, HIRAHARA, Masafumi, ASAMURA, Kazushi, SAKANOI, Takeshi, NISHIYAMA, Takanori, and KOJIMA, Hirotsugu

Abstract

第21回宇宙科学シンポジウム (2021年1月6日-7日. オンライン開催), 21st Space Science Symposium (January 6-7, 2021. Online Meeting), 資料番号: SA6000163139, レポート番号: g25-2

Published

2021

20. In-flight Performance and Initial Results of Plasma Energy Angle and Composition Experiment (PACE) on SELENE (Kaguya)

Author

Saito, Yoshifumi, Yokota, Shoichiro, Asamura, Kazushi, Tanaka, Takaaki, Nishino, Masaki N., Yamamoto, Tadateru, Terakawa, Yuta, Fujimoto, Masaki, Hasegawa, Hiroshi, Hayakawa, Hajime, Hirahara, Masafumi, Hoshino, Masahiro, Machida, Shinobu, Mukai, Toshifumi, Nagai, Tsugunobu, Nagatsuma, Tsutomu, Nakagawa, Tomoko, Nakamura, Masato, Oyama, Koh-ichiro, Sagawa, Eiichi, Sasaki, Susumu, Seki, Kanako, Shinohara, Iku, Terasawa, Toshio, Tsunakawa, Hideo, Shibuya, Hidetoshi, Matsushima, Masaki, Shimizu, Hisayoshi, and Takahashi, Futoshi

Published

2010

21. Initial observations of auroras by the multi-spectral auroral camera on board the Reimei satellite

Author

Obuchi, Yasuyuki, Sakanoi, Takeshi, Yamazaki, Atsushi, Ino, Tomohiro, Okano, Shoichi, Kasaba, Yasumasa, Hirahara, Masafumi, Kanai, Yoshikazu, and Takeyama, Norihide

Published

2008

22. Low-energy charged particle measurement by MAP-PACE onboard SELENE

Author

Saito, Yoshifumi, Yokota, Shoichiro, Asamura, Kazushi, Tanaka, Takaaki, Akiba, Ryota, Fujimoto, Masaki, Hasegawa, Hiroshi, Hayakawa, Hajime, Hirahara, Masafumi, Hoshino, Masahiro, Machida, Shinobu, Mukai, Toshifumi, Nagai, Tsugunobu, Nagatsuma, Tsutomu, Nakamura, Masato, Oyama, Koh-ichiro, Sagawa, Eiichi, Sasaki, Susumu, Seki, Kanako, and Terasawa, Toshio

Published

2008

23. Solar zenith angle dependence of relationships between energy inputs to the ionosphere and ion outflow fluxes

Author

Kitamura, Naritoshi, primary, Seki, Kanako, additional, Keika, Kunihiro, additional, Nishimura, Yukitoshi, additional, Hori, Tomoaki, additional, Hirahara, Masafumi, additional, Lund, Eric J, additional, Kistler, Lynn M, additional, and Strangeway, Robert J, additional

Published

2021

24. Medium energy ion mass spectrometer capable of measurements of three-dimensional distribution functions in space

Author

Kasahara, Satoshi, Asamura, Kazushi, Ogasawara, Keiichi, Mitani, Takefumi, Hirahara, Masafumi, Takashima, Takeshi, Saito, Yoshifumi, and Mukai, Toshifumi

Subjects

Mass spectrometry -- Methods, Mass spectrometry -- Equipment and supplies, Ions -- Properties, Numerical analysis -- Methods, Outer space -- Observations, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

We have developed a new energy/mass spectrometer for medium energy range (~10-200 keV/q) ion measurements in the Earth's magnetosphere and interplanetary space. The wide field-of-view (~360[degrees] fan) enables acquisition of 3-D distribution functions for all the major ions, by utilizing spacecraft spin motions. The g-factor is much larger than the previous ion mass spectrometers in the medium energy range. The mass analysis unit that measures ion time-of-flights is well designed to realize a lightweight and simple signal processing. Laboratory experiments with a test model show that the performance of mass spectroscopy agrees with numerical simulations. Medium energy ion mass spectrometer with this new design will surely be useful for upcoming space missions in the inner magnetosphere, reconnection regions, and other energetic plasma structures/phenomena in space. Index Terms--Full solid angle field-of-view, mass spectrometer, medium energy ions in space.

Published

2008

25. UV光源・イオンビームラインを用いた検出器系の位置検出較正実験

Author

HIRAHARA, Masafumi, TAKEI, Tomomi, SAITO, Yoshifumi, and ASAMURA, Kazushi

Abstract

令和元年度宇宙科学に関する室内実験シンポジウムは、新型コロナウイルスの感染拡大防止のため開催中止。すべて書面発表になりました。, 資料番号: SA6000149027, レポート番号: 27

Published

2020

26. 宇宙地球結合系探査計画「FACTORS」

Author

HIRAHARA, Masafumi, SAITO, Yoshifumi, KOJIMA, Hirotsugu, ASAMURA, Kazushi, MIYOSHI, Yoshizumi, KITAMURA, Naritoshi, and SAKANOI, Takeshi

Abstract

第20回宇宙科学シンポジウム (2020年1月8日-9日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 20th Space Science Symposium (January 8-9, 2020. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan, 資料番号: SA6000152104, レポート番号: P1.78

Published

2020

27. FACTORS計画におけるイオン加速、関連計測機器の検討状況

Author

KITAMURA, Naritoshi, KOJIMA, HIrotsugu, ASAMURA, Kazushi, HIRAHARA, Masafumi, and SAITO, Yoshifumi

Abstract

第20回宇宙科学シンポジウム (2020年1月8日-9日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 20th Space Science Symposium (January 8-9, 2020. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan, 資料番号: SA6000152106, レポート番号: P1.80

Published

2020

28. FACTORS衛星によるオーロラおよび宇宙から地球へのエネルギー流入過程の観測計画検討

Author

PARK, InChun, FACTORS-領域間結合研究チーム, MIYOSHI, Yoshizumi, ASAMURA, Kazushi, SAKANOI, Takeshi, HIRAHARA, Masafumi, WATANABE, Tomohiko@@NishiyamaTakanori @@EBIHARA Yusuke, HOSOKAWA, Keisuke, OGAWA, Yasunobu, SHIOKAWA, Kazuo, YAGI, Naoshi, FUKIZAWA, Mizuki, and Park, In Chun

Abstract

第20回宇宙科学シンポジウム (2020年1月8日-9日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 20th Space Science Symposium (January 8-9, 2020. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan, 著者人数: 13名ほか, 資料番号: SA6000152105, レポート番号: P1.79

Published

2020

29. Cold Dense Ion Flows in the Distant Magnetotail: The Geotail Results

Author

Hirahara, Masafumi, primary, Seki, Kanako, additional, and Mukai, Toshifumi, additional

Published

2013

30. Cold ions in the hot plasma sheet of Earth's magnetotail

Author

Seki, Kanako, Hirahara, Masafumi, Hoshino, Masahiro, Terasawa, Toshio, Elphic, Richard C., Saito, Yoshifumi, Mukai, Toshifumi, Hayakawa, Hajime, Kojima, Hirotsugu, and Matsumoto, Hiroshi

Subjects

Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): Kanako Seki (corresponding author) [1]; Masafumi Hirahara [2]; Masahiro Hoshino [3]; Toshio Terasawa [3]; Richard C. Elphic [4]; Yoshifumi Saito [5]; Toshifumi Mukai [5]; Hajime Hayakawa [5]; Hirotsugu Kojima [...]

Published

2003

31. In-flight Performance and Initial Results of Plasma Energy Angle and Composition Experiment (PACE) on SELENE (Kaguya)

Author

Saito, Yoshifumi, primary, Yokota, Shoichiro, additional, Asamura, Kazushi, additional, Tanaka, Takaaki, additional, Nishino, Masaki N., additional, Yamamoto, Tadateru, additional, Terakawa, Yuta, additional, Fujimoto, Masaki, additional, Hasegawa, Hiroshi, additional, Hayakawa, Hajime, additional, Hirahara, Masafumi, additional, Hoshino, Masahiro, additional, Machida, Shinobu, additional, Mukai, Toshifumi, additional, Nagai, Tsugunobu, additional, Nagatsuma, Tsutomu, additional, Nakagawa, Tomoko, additional, Nakamura, Masato, additional, Oyama, Koh-ichiro, additional, Sagawa, Eiichi, additional, Sasaki, Susumu, additional, Seki, Kanako, additional, Shinohara, Iku, additional, Terasawa, Toshio, additional, Tsunakawa, Hideo, additional, Shibuya, Hidetoshi, additional, Matsushima, Masaki, additional, Shimizu, Hisayoshi, additional, and Takahashi, Futoshi, additional

Published

2010

32. Database production and management of magnetometer GAS onboard Reimei Satellite; Estimation of field-aligned current

Author

Masuoka, Aoi, Takada, Taku, Hirahara, Masafumi, and Asamura, Kazushi

Abstract

れいめい衛星は, オーロラと降り込み粒子の同時観測を行うことで, オーロラ科学の発展に寄与してきた. 超小型衛星計画であるため, 理学ミッション機器は多波長オーロラカメラ, オーロラ粒子観測器, ラングミュアプローブの３つのみであり, 主にオーロラカメラと粒子観測器の２つのミッション機器による高性能で高時間分解能のデータ解析が中心であった. 一方, 姿勢制御用の磁力計GAS（Geomagnetic Aspect Sensor）を用いることで, 高時間分解能の磁場データを扱うことができる. ただし, 磁力計データの補正等が行われておらず, そのままでは科学の議論ができる状態ではなかった. また, 磁力計は衛星本体からの電磁波を受けやすい場所に設置されており, 宇宙空間の磁場変動に比べて大きなノイズ成分を含んだデータとなる. 座標変換, 平均化, オフセット調整などのデータ補正を行うことで, 磁力計データの磁場変動が, オーロラ粒子データと非常によく対応し, 沿磁力線電流による影響を顕著に表していることが確かめられた. これにより, 磁場変動から沿磁力線電流を推定することができる. 現在, GAS の補正データのデータベースの作成・整備を行っている. GAS のデータベースを利用することで, オーロラとプラズマ粒子に加えて, 沿磁力線電流の影響も同時に確認することができ, れいめい衛星データ解析が大きく前進することが期待される. また, ノイズ成分の大きな磁力計であっても, 沿磁力線電流の影響を精度よく測ることができており, 超小型衛星等への磁力計搭載について, 重要な意味を持っている., Reimei satellite contributes to the developments of auroral sciences, by the simultaneous observations of auroral emissions and auroral particles. Within the limits of a small spacecraft mission, the main mission instruments are only the Multi-spectral Auroral imaging Camera (MAC), the Electron Energy Spectrum Analyzer/Ion Energy Spectrum Analyzer (ESA/ISA), and the plasma CurRent Monitor (CRM). The data analysis of the Reimei satellite is primarily conducted by using the two mission instruments such as MAC and ESA/ISA. The Geomagnetic Aspect Sensor (GAS) is onboard the spacecraft for attitude control and it can make output of high-time resolution magnetic field data. Because of lack of calibration it has not been possible to use GAS data for scientific discussion. The noise level of the data is quite high, compared to the variation of magnetic fields in space, because the magnetometer is not in an optimal position onboard the spacecraft. We calibrated the GAS data using coordinate transformation, averaging, and offset subtraction. As the magnetic field variation of calibrated GAS data corresponds to the characteristics of auroral particles well, it is considered to be affected by field-aligned currents (FACs). We can now estimate the FAC from the magnetic field variations from GAS data. Based on the database of calibrated GAS data, Reimei data analysis is expected to make progress, where three instruments can clarify aurora behaviors and the auroral particles, monitoring FAC effects. Finally, we note that calibrated GAS data can detect even the effects of a weak FAC in spite of the large noise level of GAS raw data. This suggests that magnetometers onboard other similar microsatellites may also be used for FAC studies., 形態: カラー図版あり, Physical characteristics: Original contains color illustrations, 資料番号: AA1630049006, レポート番号: JAXA-RR-16-007

Published

2017

33. 荷電粒子ビームライン較正装置用エネルギー・角度分散分析モニターシステムの開発 ーエネルギー・角度分布プロファイラの稼動試験ー

Author

Hirahara, Masafumi, Ohkawa, Yutaka, Takei, Tomomi, Saito, Yoshifumi, and Asamura, Kazushi

Abstract

平成30年度宇宙科学に関する室内実験シンポジウム (2019年2月28日-3月1日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 2019 Symposium on Laboratory Experiment for Space Science (February 28 - March 1, 2019. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency (JAXA)(ISAS)), Sagamihara, Kanagawa Japan, 資料番号: SA6000139033

Published

2019

34. Pre-flight Calibration and Near-Earth Commissioning Results of the Mercury Plasma Particle Experiment (MPPE) Onboard MMO (Mio).

Author

Saito, Yoshifumi, Delcourt, Dominique, Hirahara, Masafumi, Barabash, Stas, André, Nicolas, Takashima, Takeshi, Asamura, Kazushi, Yokota, Shoichiro, Wieser, Martin, Nishino, Masaki N., Oka, Mitsuo, Futaana, Yoshifumi, Harada, Yuki, Sauvaud, Jean-André, Louarn, Philippe, Lavraud, Benoit, Génot, Vincent, Mazelle, Christian, Dandouras, Iannis, and Jacquey, Christian

Subjects

MERCURY, MERCURY (Planet), PLASMA waves, THERMAL shielding, MASS spectrometry

Abstract

BepiColombo Mio (previously called MMO: Mercury Magnetospheric Orbiter) was successfully launched by Ariane 5 from Kourou, French Guiana on October 20, 2018. The Mercury Plasma/Particle Experiment (MPPE) is a comprehensive instrument package onboard Mio spacecraft used for plasma, high-energy particle and energetic neutral atom measurements. It consists of seven sensors including two Mercury Electron Analyzers (MEA1 and MEA2), Mercury Ion Analyzer (MIA), Mass Spectrum Analyzer (MSA), High Energy Particle instrument for electron (HEP-ele), High Energy Particle instrument for ion (HEP-ion), and Energetic Neutrals Analyzer (ENA). Significant efforts were made pre-flight to calibrate all of the MPPE sensors at the appropriate facilities on the ground. High voltage commissioning of MPPE analyzers was successfully performed between June and August 2019 and in February 2020 following the completion of the low voltage commissioning in November 2018. Although all of the MPPE analyzers are now ready to begin observation, the full service performance has been delayed until Mio's arrival at Mercury. Most of the fields of view (FOVs) of the MPPE analyzers are blocked by the thermal shield surrounding the Mio spacecraft during the cruising phase. Together with other instruments on Mio including Magnetic Field Investigation (MGF) and Plasma Wave Investigation (PWI) that measure plasma field parameters, MPPE will contribute to the comprehensive understanding of the plasma environment around Mercury when BepiColombo/Mio begins observation after arriving at the planet Mercury in December 2025. [ABSTRACT FROM AUTHOR]

Published

2021

35. Spatial characteristics of wave-like structures in diffuse aurora obtained using optical observations

Author

Axelsson, K., Sergienko, T., Nilsson, H., Brandstrom, U., Ebihara, Yusuke, Asamura, Kazushi, and Hirahara, Masafumi

Subjects

Atmospheric Science, Magnetosphere, Electron precipitation, Electron, Ion, Optics, Earth and Planetary Sciences (miscellaneous), Magnetospheric physics (Auroral phenomena), Pitch angle, Ionosphere (Particle precipitation, Waveparticle interactions), Diffusion (business), lcsh:Science, Physics, business.industry, lcsh:QC801-809, Plasma sheet, Geology, Astronomy and Astrophysics, Plasma, lcsh:QC1-999, Computational physics, lcsh:Geophysics. Cosmic physics, Space and Planetary Science, Physics::Space Physics, lcsh:Q, business, lcsh:Physics

Abstract

Accepted: 2012-11-23, 資料番号: SA1004427000

Published

2018

36. 熱-低エネルギー帯プラズマ粒子分析器の開発

Author

Asamura, Kazushi, Yokota, Shoichiro, Namekawa, Taku, Hasegawa, Tatsuya, Saito, Yoshifumi, and Hirahara, Masafumi

Abstract

平成29年度宇宙科学に関する室内実験シンポジウム (2018年2月26日-27日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 2018 Symposium on Laboratory Experiment for Space Science (February 26-27, 2018. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency (JAXA)(ISAS)), Sagamihara, Kanagawa Japan, 資料番号: SA6000123042

Published

2018

37. イオン・電子ビームライン較正装置用2次元プロファイルモニターシステムの開発 -ビーム2次元プロファイラーの初期稼動試験

Author

Hirahara, Masafumi, Ohkawa, Yutaka, Saito, Yoshifumi, and Asamura, Kazushi

Abstract

平成29年度宇宙科学に関する室内実験シンポジウム (2018年2月26日-27日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 2018 Symposium on Laboratory Experiment for Space Science (February 26-27, 2018. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency (JAXA)(ISAS)), Sagamihara, Kanagawa Japan, 資料番号: SA6000123030

Published

2018

38. ジオスペース探査衛星プロジェクトERG

Author

Miyoshi, Yoshizumi, Shinohara, Iku, Takashima, Takeshi, Asamura, Kazushi, Matsumoto, Haruhisa, Higashio, Nana, Mitani, Takefumi, Kasahara, Satoshi, Yokota, Shoichiro, Kazama, Yoichi, Hirahara, Masafumi, Kasaba, Yasumasa, Matsuoka, Ayako, Kojima, Hirotsugu, Fujimoto, Masaki, Shiokawa, Kazuo, Seki, Kanako, Nakamura, Yosuke, Nitta, Kumi, Fukuda, Seisuke, and Ogawa, Emiko

Abstract

第11回宇宙環境シンポジウム (2014年12月10日-11日. 大阪府立大学 I-siteなんば), 大阪, 11th Spacecraft Environment Symposium (December 10-11, 2014, I-site Namba, Osaka Prefecture University), Osaka, Japan, 著者人数: 23名, 形態: カラー図版あり, Number of authors: 23, Physical characteristics: Original contains color illustrations, 資料番号: AA1530019004, レポート番号: JAXA-SP-14-012

Published

2015

39. ERG計画における連携地上ネットワーク観測

Author

塩川, 和夫, 藤井, 良一, 橋本, 久美子, 細川, 敬祐, 門倉, 昭, 河野, 英昭, 菊池, 崇, 北村, 健太郎, 三好, 由純, 長妻, 努, 西谷, 望, 尾花, 由紀, 小川, 泰信, 大矢, 浩代, 岡田, 雅樹, 大塚, 雄一, 尾崎, 光紀, 佐藤, 夏雄, 篠原, 学, 田所, 裕康, 田口, 真, 田中, 良昌, 谷森、達, 土屋, 史紀, 山岸, 久雄, 吉川, 顕正, 行松, 彰, 湯元, 清文, Shiokawa, Kazuo, Fujii, Ryoichi, Hashimoto, Kumiko, Hosokawa, Keisuke, Kadokura, Akira, Hirahara, Masafumi, Kikuchi, Takashi, Kitamura, Kentaro, Miyoshi, Yoshizumi, Nagatsuma, Tsutomu, Nishitani, N., Obana, Yuki, Ogawa, Yasunobu, Ohya, Hiroyo, Otsuka, Yuichi, Ozaki, Mitsunori, Sato, Natsuo, Shinohara, Manabu, Taguchi, Makoko, Tanaka, Yoshimasa, Tanimori, Toru, Tsuchiya, Fuminori, Yamagishi, Hisao, Yoshikawa, Akimasa, Yukimatsu, Akira, 塩川, 和夫, 藤井, 良一, 橋本, 久美子, 細川, 敬祐, 門倉, 昭, 河野, 英昭, 菊池, 崇, 北村, 健太郎, 三好, 由純, 長妻, 努, 西谷, 望, 尾花, 由紀, 小川, 泰信, 大矢, 浩代, 岡田, 雅樹, 大塚, 雄一, 尾崎, 光紀, 佐藤, 夏雄, 篠原, 学, 田所, 裕康, 田口, 真, 田中, 良昌, 谷森、達, 土屋, 史紀, 山岸, 久雄, 吉川, 顕正, 行松, 彰, 湯元, 清文, Shiokawa, Kazuo, Fujii, Ryoichi, Hashimoto, Kumiko, Hosokawa, Keisuke, Kadokura, Akira, Hirahara, Masafumi, Kikuchi, Takashi, Kitamura, Kentaro, Miyoshi, Yoshizumi, Nagatsuma, Tsutomu, Nishitani, N., Obana, Yuki, Ogawa, Yasunobu, Ohya, Hiroyo, Otsuka, Yuichi, Ozaki, Mitsunori, Sato, Natsuo, Shinohara, Manabu, Taguchi, Makoko, Tanaka, Yoshimasa, Tanimori, Toru, Tsuchiya, Fuminori, Yamagishi, Hisao, Yoshikawa, Akimasa, and Yukimatsu, Akira

Abstract

会議情報: 第13回宇宙科学シンポジウム (2013年1月8日-9日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 著者人数: 28名, Meeting Information: 13th Space Science Symposium (January 8-9, 2013. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan

Published

2018

40. ERG 衛星搭載用低エネルギー粒子分析器（LEPe、LEPi） の開発

Author

浅村, 和史, 風間, 洋一, Cheng, C.Z., 笠原, 慧, 高島, 健, 平原, 聖文, Asamura, Kazushi, Kazama, Yoichi, Kasahara, Satoshi, Takashima, Takeshi, Hirahara, Masafumi, 浅村, 和史, 風間, 洋一, Cheng, C.Z., 笠原, 慧, 高島, 健, 平原, 聖文, Asamura, Kazushi, Kazama, Yoichi, Kasahara, Satoshi, Takashima, Takeshi, and Hirahara, Masafumi

Abstract

会議情報: 第13回宇宙科学シンポジウム (2013年1月8日-9日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, Meeting Information: 13th Space Science Symposium (January 8-9, 2013. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan

Published

2018

41. ジオスペース探査衛星ERGによる放射線帯プラズマ・高エネルギー粒子観測

Author

Wang, B.-J, Shiang-Yu, Wang, Asamura, Kazushi, Higashio, Nana, Hirahara, Masafumi, Kasahara, Satoshi, Matsumoto, Haruhisa, Mitani, Takefumi, Miyake, Wataru, Suto, Yushi, Takashima, Takeshi, Wang, Shiang-Yu, Yamamoto, Kazuhiro, and Yokota, Shoichiro

Abstract

第17回宇宙科学シンポジウム (2017年1月5日-6日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 17th Space Science Symposium (January 5-6, 2017. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan, 著者人数: 14名, 資料番号: SA6000060071, レポート番号: P-029

Published

2017

42. Geospace Exploration Project: ERG

Author

Wang, Shiang-Yu, Miyoshi, Yoshizumi, Shinohara, Iku, Takashima, Takeshi, Asamura, Kazushi, Higashio, Nana, Matsumoto, Haruhisa, Mitani, Takefumi, Yokota, Shoichiro, Kasahara, Satoshi, Kazama, Yoichi, Hirahara, Masafumi, Kasahara, Yoshiya, Kasaba, Yasumasa, Yagitani, Satoshi, Matsuoka, Ayako, Kojima, Hirotsugu, Katoh, Yuto, Shiokawa, Kazuo, Seki, Kanako, Fujimoto, Masaki, Nakamura, Yosuke, Fukuda, Seisuke, Nitta, Kumi, Ogawa, Emiko, and Ono, Takayuki

Abstract

第17回宇宙科学シンポジウム (2017年1月5日-6日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 17th Space Science Symposium (January 5-6, 2017. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan, 著者人数: 26名, 資料番号: SA6000060001, レポート番号: S1-001

Published

2017

43. ジオスペース探査衛星ERG 計画について

Author

ERGプロジェクトグループ, Miyoshi, Yoshizumi, Takashima, Takeshi, Asamura, Kazushi, Ono, Takayuki, Mitani, Takefumi, Kasahara, Satoshi, Hirahara, Masafumi, Matsumoto, Haruhisa, Higashio, Nana, Kazama, Yoichi, Kasaba, Yasumasa, Matsuoka, Ayako, Kojima, Hirotsugu, Fujimoto, Masaki, Shiokawa, Kazuo, Seki, Kanako, Nitta, Kumi, Ogawa, Emiko, Murashima, Mio, and ERG Project Team

Abstract

第10回宇宙環境シンポジウム (2013年12月2日-3日. 科学技術館), 東京, 10th Spacecraft Environment Symposium (December 2-3, 2013, Science Museum), Tokyo Japan, 形態: カラー図版あり, 著者人数: 20名, Physical characteristics: Original contains color illustrations, Number of authors: 2, 資料番号: AA0062301002, レポート番号: JAXA-SP-13-016

Published

2014

44. Medium-energy particle experiments–ion mass analyzer (MEP-i) onboard ERG (Arase)

Author

Yokota, Shoichiro, primary, Kasahara, Satoshi, additional, Mitani, Takefumi, additional, Asamura, Kazushi, additional, Hirahara, Masafumi, additional, Takashima, Takeshi, additional, Yamamoto, Kazuhiro, additional, and Shibano, Yasuko, additional

Published

2017

45. Charged particle measurements in the radiation belts by ERG

Author

Asamura, Kazushi, Higashio, Nana, Hirahara, Masafumi, Kasahara, Satoshi, Matsumoto, Haruhisa, Mitani, Takefumi, Miyake, Wataru, Suto, Yushi, Takashima, Takeshi, Wang, B.-J, Wang, Shiang-Yu, Yamamoto, Kazuhiro, Yokota, Shoichiro, 浅村, 和史, 東尾, 奈々, 平原, 聖文, 笠原, 慧, 風間, 洋一, 松本, 晴久, 三谷, 烈史, 三宅, 亙, 須藤, 雄志, 高島, 健, Shiang-Yu, Wang, 山本, 和弘, 横田, 勝一郎, Asamura, Kazushi, Higashio, Nana, Hirahara, Masafumi, Kasahara, Satoshi, Matsumoto, Haruhisa, Mitani, Takefumi, Miyake, Wataru, Suto, Yushi, Takashima, Takeshi, Wang, B.-J, Wang, Shiang-Yu, Yamamoto, Kazuhiro, Yokota, Shoichiro, 浅村, 和史, 東尾, 奈々, 平原, 聖文, 笠原, 慧, 風間, 洋一, 松本, 晴久, 三谷, 烈史, 三宅, 亙, 須藤, 雄志, 高島, 健, Shiang-Yu, Wang, 山本, 和弘, and 横田, 勝一郎

Abstract

会議情報: 第17回宇宙科学シンポジウム (2017年1月5日-6日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 著者人数: 14名, Meeting Information: 17th Space Science Symposium (January 5-6, 2017. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan

Published

2017

46. Multi-spacecraft mission for Auroral exploration

Author

Asamura, Kazushi, Miyoshi, Yoshizumi, Sakanoi, Takeshi, Nishiyama, Takanori, Saito, Yoshifumi, Hirahara, Masafumi, Matsuoka, Ayako, and Kasaba, Yasumasa

Abstract

第16回宇宙科学シンポジウム (2016年1月6日-7日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 16th Space Science Symposium (January 6-7, 2016. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan, 資料番号: SA6000046151, レポート番号: P-152

Published

2016

47. Examination of Mission Scenario and Spacecraft System to Study Martian Atmospheric Escape

Author

Matsuoka, Ayako, Seki, Kanako, Terada, Naoki, Yokota, Shoichiro, Yamazaki, Atsushi, Imamura, Takeshi, Abe, Takumi, Futaana, Yoshifumi, Hirahara, Masafumi, Ishisaka, Keigo, Kumamoto, Atsushi, Kurihara, Junichi, Nakagawa, Hiromu, Sakanoi, Takeshi, and Taguchi, Makoto

Abstract

第16回宇宙科学シンポジウム (2016年1月6日-7日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 16th Space Science Symposium (January 6-7, 2016. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan, 著者人数: 15名, 資料番号: SA6000046121, レポート番号: P-122

Published

2016

48. Geospace Exploration Mission ERG

Author

ONO, Takayuki, ASAMURA, Kazushi, MIYOSHI, Yoshizumi, TAKASHIMA, Takeshi, HIRAHARA, Masafumi, OBARA, Takahiro, KASABA, Yasumasa, KUMAMOTO, Atsushi, MATSUOKA, Ayako, KOJIMA, Hirotsugu, SHIOKAWA, Kazuo, SEKI, Kanako, FUJIMOTO, Masaki, NAGATSUMA, Tsutomu, ERGワーキンググループ, and ERG, Working, Group

Subjects

Geospace Exploration, Small satellite program, Space Weather

Abstract

ジオスペースERG探査計画の紹介, Introduction to Geospace Exploration Mission ERG, 本文データは学協会の許諾に基づきCiNiiから複製したものである

Published

2011

49. Development of an electrostatic analyzer of grazing incidence for medium energy (10-200 keV) particles using cylindrical electrode

Author

Aoyama, So, Machida, Shinobu, Obara, Takahiro, Hirahara, Masafumi, Saito, Yoshifumi, Saito, Akinori, and Yokota, Shoichiro

Abstract

第5回宇宙環境シンポジウム(2008年12月18日-12月19日. つくば国際会議場）, 形態: カラー図版あり, 資料番号: AA0064382024, レポート番号: JAXA-SP-08-018

Published

2009

50. Geospace exploring mission at next maximum phase of solar activity: ERG project

Author

Ono, Takayuki, Miyoshi, Yoshizumi, Takashima., Takeshi, Hirahara, Masafumi, Asamura, Kazushi, Kasaba, Yasumasa, Kumamoto, Atsushi, Kojima, Hirotsugu, Matsuoka, Ayako, and Shiokawa, Kazuo

Abstract

第9回宇宙科学シンポジウム(2009年1月6日-7日, 宇宙航空研究開発機構宇宙科学研究本部), 形態: カラー図版あり, 著者人数: 12名, 資料番号: AA0064293017

Published

2009