Curriculum Vitaes

Yukio YAMAMOTO

  (山本 幸生)

Profile Information

Affiliation
Associate Professor, Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency

J-GLOBAL ID
201901015283902873
researchmap Member ID
B000362527

Papers

 66
  • K. Yumoto, E. Tatsumi, T. Kouyama, D. R. Golish, Y. Cho, T. Morota, S. Kameda, H. Sato, B. Rizk, D. N. DellaGiustina, Y. Yokota, H. Suzuki, J. de León, H. Campins, J. Licandro, M. Popescu, J. L. Rizos, R. Honda, M. Yamada, N. Sakatani, C. Honda, M. Matsuoka, M. Hayakawa, H. Sawada, K. Ogawa, Y. Yamamoto, D. S. Lauretta, S. Sugita
    Icarus, 420, Sep 15, 2024  
    Various natural effects gradually alter the surfaces of asteroids exposed to the space environment. These processes are collectively known as space weathering. The influence of space weathering on the observed spectra of C-complex asteroids remains uncertain. This has long hindered our understanding of their composition and evolution through ground-based telescope observations. Proximity observations of (162173) Ryugu by the telescopic Optical Navigation Camera (ONC-T) onboard Hayabusa2 and that of (101955) Bennu by MapCam onboard Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer (OSIRIS-REx) found opposite spectral trends of space weathering; Ryugu darkened and reddened while Bennu brightened and blued. How the spectra of Ryugu and Bennu evolved relative to each other would place an important constraint for understanding their mutual relationship and differences in their origins and evolutions. In this study, we compared the space weathering trends on Ryugu and Bennu by applying the results of cross calibration between ONC-T and MapCam obtained in our companion paper. We show that the average Bennu surface is brighter by 18.0 ± 1.5% at v band (550 nm) and bluer by 0.18 ± 0.03 μm−1 (in the 480–850 nm spectral slope) than Ryugu. The spectral slopes of surface materials are more uniform on Bennu than on Ryugu at spatial scales larger than ∼1 m, but Bennu is more heterogeneous at scales below ∼1 m. This suggests that lateral mixing of surface materials due to resurfacing processes may have been more efficient on Bennu. The reflectance−spectral slope distributions of craters on Ryugu and Bennu appeared to follow two parallel trend lines with an offset before cross calibration, but they converged to a single straight trend without a bend after cross calibration. We show that the spectra of the freshest craters on Ryugu and Bennu are indistinguishable within the uncertainty of cross calibration. These results suggest that Ryugu and Bennu initially had similar spectra before space weathering and that they evolved in completely opposite directions along the same trend line, subsequently evolving into asteroids with different disk-averaged spectra. These findings further suggest that space weathering likely expanded the spectral slope variation of C-complex asteroids, implying that they may have formed from materials with more uniform spectral slopes.
  • K. Yumoto, E. Tatsumi, T. Kouyama, D.R. Golish, Y. Cho, T. Morota, S. Kameda, H. Sato, B. Rizk, D.N. DellaGiustina, Y. Yokota, H. Suzuki, J. de León, H. Campins, J. Licandro, M. Popescu, J.L. Rizos, R. Honda, M. Yamada, N. Sakatani, C. Honda, M. Matsuoka, M. Hayakawa, H. Sawada, K. Ogawa, Y. Yamamoto, D.S. Lauretta, S. Sugita
    Icarus, 417 116122-116122, Jul, 2024  
  • Ryuji Okazaki, Bernard Marty, Henner Busemann, Ko Hashizume, Jamie D. Gilmour, Alex Meshik, Toru Yada, Fumio Kitajima, Michael W. Broadley, David Byrne, Evelyn Füri, My E.I. Riebe, Daniela Krietsch, Colin Maden, Akizumi Ishida, Patricia Clay, Sarah A. Crowther, Lydia Fawcett, Thomas Lawton, Olga Pravdivtseva, Yayoi N. Miura, Jisun Park, Ken Ichi Bajo, Yoshinori Takano, Keita Yamada, Shinsuke Kawagucci, Yohei Matsui, Mizuki Yamamoto, Kevin Righter, Saburo Sakai, Naoyoshi Iwata, Naoki Shirai, Shun Sekimoto, Makoto Inagaki, Mitsuru Ebihara, Reika Yokochi, Kunihiko Nishiizumi, Keisuke Nagao, Jong Ik Lee, Akihiro Kano, Marc W. Caffee, Ryu Uemura, Tomoki Nakamura, Hiroshi Naraoka, Takaaki Noguchi, Hikaru Yabuta, Hisayoshi Yurimoto, Shogo Tachibana, Hirotaka Sawada, Kanako Sakamoto, Masanao Abe, Masahiko Arakawa, Atsushi Fujii, Masahiko Hayakawa, Naoyuki Hirata, Naru Hirata, Rie Honda, Chikatoshi Honda, Satoshi Hosoda, Yu Ichi Iijima, Hitoshi Ikeda, Masateru Ishiguro, Yoshiaki Ishihara, Takahiro Iwata, Kosuke Kawahara, Shota Kikuchi, Kohei Kitazato, Koji Matsumoto, Moe Matsuoka, Tatsuhiro Michikami, Yuya Mimasu, Akira Miura, Tomokatsu Morota, Satoru Nakazawa, Noriyuki Namiki, Hirotomo Noda, Rina Noguchi, Naoko Ogawa, Kazunori Ogawa, Tatsuaki Okada, Chisato Okamoto, Go Ono, Masanobu Ozaki, Takanao Saiki, Naoya Sakatani, Hiroki Senshu, Yuri Shimaki, Kei Shirai, Seiji Sugita, Yuto Takei, Hiroshi Takeuchi, Satoshi Tanaka, Eri Tatsumi, Fuyuto Terui, Ryudo Tsukizaki, Koji Wada, Manabu Yamada, Tetsuya Yamada, Yukio Yamamoto, Hajime Yano
    Science (New York, N.Y.), 379(6634) eabo0431, Feb 24, 2023  
    The near-Earth carbonaceous asteroid (162173) Ryugu is expected to contain volatile chemical species that could provide information on the origin of Earth's volatiles. Samples of Ryugu were retrieved by the Hayabusa2 spacecraft. We measured noble gas and nitrogen isotopes in Ryugu samples and found that they are dominated by presolar and primordial components, incorporated during Solar System formation. Noble gas concentrations are higher than those in Ivuna-type carbonaceous (CI) chondrite meteorites. Several host phases of isotopically distinct nitrogen have different abundances among the samples. Our measurements support a close relationship between Ryugu and CI chondrites. Noble gases produced by galactic cosmic rays, indicating a ~5 million year exposure, and from implanted solar wind record the recent irradiation history of Ryugu after it migrated to its current orbit.
  • Hiroshi Naraoka, Yoshinori Takano, Jason P. Dworkin, Yasuhiro Oba, Kenji Hamase, Aogu Furusho, Nanako O. Ogawa, Minako Hashiguchi, Kazuhiko Fukushima, Dan Aoki, Philippe Schmitt-Kopplin, José C. Aponte, Eric T. Parker, Daniel P. Glavin, Hannah L. McLain, Jamie E. Elsila, Heather V. Graham, John M. Eiler, Francois Regis Orthous-Daunay, Cédric Wolters, Junko Isa, Véronique Vuitton, Roland Thissen, Saburo Sakai, Toshihiro Yoshimura, Toshiki Koga, Naohiko Ohkouchi, Yoshito Chikaraishi, Haruna Sugahara, Hajime Mita, Yoshihiro Furukawa, Norbert Hertkorn, Alexander Ruf, Hisayoshi Yurimoto, Tomoki Nakamura, Takaaki Noguchi, Ryuji Okazaki, Hikaru Yabuta, Kanako Sakamoto, Shogo Tachibana, Harold C. Connolly, Dante S. Lauretta, Masanao Abe, Toru Yada, Masahiro Nishimura, Kasumi Yogata, Aiko Nakato, Miwa Yoshitake, Ayako Suzuki, Akiko Miyazaki, Shizuho Furuya, Kentaro Hatakeda, Hiromichi Soejima, Yuya Hitomi, Kazuya Kumagai, Tomohiro Usui, Tasuku Hayashi, Daiki Yamamoto, Ryota Fukai, Kohei Kitazato, Seiji Sugita, Noriyuki Namiki, Masahiko Arakawa, Hitoshi Ikeda, Masateru Ishiguro, Naru Hirata, Koji Wada, Yoshiaki Ishihara, Rina Noguchi, Tomokatsu Morota, Naoya Sakatani, Koji Matsumoto, Hiroki Senshu, Rie Honda, Eri Tatsumi, Yasuhiro Yokota, Chikatoshi Honda, Tatsuhiro Michikami, Moe Matsuoka, Akira Miura, Hirotomo Noda, Tetsuya Yamada, Keisuke Yoshihara, Kosuke Kawahara, Masanobu Ozaki, Yu Ichi Iijima, Hajime Yano, Masahiko Hayakawa, Takahiro Iwata, Ryudo Tsukizaki, Hirotaka Sawada, Satoshi Hosoda, Kazunori Ogawa, Chisato Okamoto, Naoyuki Hirata, Kei Shirai, Yuri Shimaki, Manabu Yamada, Tatsuaki Okada, Yukio Yamamoto
    Science (New York, N.Y.), 379(6634) eabn9033, Feb 24, 2023  
    The Hayabusa2 spacecraft collected samples from the surface of the carbonaceous near-Earth asteroid (162173) Ryugu and brought them to Earth. The samples were expected to contain organic molecules, which record processes that occurred in the early Solar System. We analyzed organic molecules extracted from the Ryugu surface samples. We identified a variety of molecules containing the atoms CHNOS, formed by methylation, hydration, hydroxylation, and sulfurization reactions. Amino acids, aliphatic amines, carboxylic acids, polycyclic aromatic hydrocarbons, and nitrogen-heterocyclic compounds were detected, which had properties consistent with an abiotic origin. These compounds likely arose from an aqueous reaction on Ryugu's parent body and are similar to the organics in Ivuna-type meteorites. These molecules can survive on the surfaces of asteroids and be transported throughout the Solar System.
  • Ryuji Okazaki, Yayoi N. Miura, Yoshinori Takano, Hirotaka Sawada, Kanako Sakamoto, Toru Yada, Keita Yamada, Shinsuke Kawagucci, Yohei Matsui, Ko Hashizume, Akizumi Ishida, Michael W. Broadley, Bernard Marty, David Byrne, Evelyn Füri, Alex Meshik, Olga Pravdivtseva, Henner Busemann, My E.I. Riebe, Jamie Gilmour, Jisun Park, Ken Ichi Bajo, Kevin Righter, Saburo Sakai, Shun Sekimoto, Fumio Kitajima, Sarah A. Crowther, Naoyoshi Iwata, Naoki Shirai, Mitsuru Ebihara, Reika Yokochi, Kunihiko Nishiizumi, Keisuke Nagao, Jong Ik Lee, Patricia Clay, Akihiro Kano, Marc W. Caffee, Ryu Uemura, Makoto Inagaki, Daniela Krietsch, Colin Maden, Mizuki Yamamoto, Lydia Fawcett, Thomas Lawton, Tomoki Nakamura, Hiroshi Naraoka, Takaaki Noguchi, Hikaru Yabuta, Hisayoshi Yurimoto, Yuichi Tsuda, Sei Ichiro Watanabe, Masanao Abe, Masahiko Arakawa, Atsushi Fujii, Masahiko Hayakawa, Naoyuki Hirata, Naru Hirata, Rie Honda, Chikatoshi Honda, Satoshi Hosoda, Yu Ichi Iijima, Hitoshi Ikeda, Masateru Ishiguro, Yoshiaki Ishihara, Takahiro Iwata, Kosuke Kawahara, Shota Kikuchi, Kohei Kitazato, Koji Matsumoto, Moe Matsuoka, Tatsuhiro Michikami, Yuya Mimasu, Akira Miura, Tomokatsu Morota, Satoru Nakazawa, Noriyuki Namiki, Hirotomo Noda, Rina Noguchi, Naoko Ogawa, Kazunori Ogawa, Tatsuaki Okada, Chisato Okamoto, Go Ono, Masanobu Ozaki, Takanao Saiki, Naoya Sakatani, Hiroki Senshu, Yuri Shimaki, Kei Shirai, Seiji Sugita, Yuto Takei, Hiroshi Takeuchi, Satoshi Tanaka, Eri Tatsumi, Fuyuto Terui, Ryudo Tsukizaki, Koji Wada, Manabu Yamada, Tetsuya Yamada, Yukio Yamamoto
    Science Advances, 8(46), Nov, 2022  
    The Hayabusa2 spacecraft returned to Earth from the asteroid 162173 Ryugu on 6 December 2020. One day after the recovery, the gas species retained in the sample container were extracted and measured on-site and stored in gas collection bottles. The container gas consists of helium and neon with an extraterrestrial 3He/4He and 20Ne/22Ne ratios, along with some contaminant terrestrial atmospheric gases. A mixture of solar and Earth’s atmospheric gas is the best explanation for the container gas composition. Fragmentation of Ryugu grains within the sample container is discussed on the basis of the estimated amount of indigenous He and the size distribution of the recovered Ryugu grains. This is the first successful return of gas species from a near-Earth asteroid.

Misc.

 72
  • 岡田達明, 岡田達明, 田中智, 坂谷尚哉, 嶌生有理, 石崎拓也, 吉川真, 竹内央, 山本幸生, 荒井武彦, 千秋博紀, 出村裕英, 関口朋彦, 神山徹, 金丸仁明
    日本地球惑星科学連合大会予稿集(Web), 2023, 2023  
  • 岡田達明, 田中智, 坂谷尚哉, 嶌生有理, 石崎拓也, 吉川真, 竹内央, 山本幸生, 千秋博紀, 荒井武彦, 出村裕英, 関口朋彦, 神山徹, 金丸仁明
    宇宙科学技術連合講演会講演集(CD-ROM), 66th, 2022  
  • 中島康平, 山本幸生, 山田竜平, 廣田雅春, 荒木徹也, 石川博
    宇宙航空研究開発機構研究開発報告 JAXA-RR-(Web), (20-010), 2021  
  • 今福拓海, 山本幸生, 大竹真紀子, 廣田雅春, 荒木徹也, 石川博
    宇宙航空研究開発機構研究開発報告 JAXA-RR-(Web), (20-010), 2021  
  • 吉川真, 渡邊誠一郎, 杉田精司, 並木則行, 北里宏平, 田中智, 荒川政彦, 橘省吾, 岡田達明, 出村裕英, 池田人, 石黒正晃, 山本幸生, 藤田和央, 安部正真, 臼井寛裕, JAUMANN Ralf, BIBRING Jean-Pierre, GROTT Matthias, GLASSMEIER Karl-Heinz, HELBERT Joern, HO Tra-Mi, SOFFYS Aurelie Moussi, 中澤暁, 津田雄一
    宇宙科学技術連合講演会講演集(CD-ROM), 65th, 2021  
  • 小野寺康祐, 井上博夏, 山本光生, 山本幸生, 大嶽久志, 荒木徹也, 廣田雅春, 石川博
    宇宙航空研究開発機構研究開発報告 JAXA-RR-(Web), (19-006), 2020  
  • 中島康平, 井上博夏, 山本光生, 山本幸生, 大嶽久志, 荒木徹也, 廣田雅春, 石川博
    宇宙航空研究開発機構研究開発報告 JAXA-RR-(Web), (19-006), 2020  
  • 牧謙一郎, 橘薫, 鈴木亮, 池田人, 山本幸生, 太田方之, 小川美奈, 中村英斗, 安光亮一郎, 戸田知朗, 川勝康弘
    宇宙科学技術連合講演会講演集(CD-ROM), 64th, 2020  
  • 平田成, 平田直之, 野口里奈, 嶌生有理, 杉田精司, 松本晃治, 千秋博紀, 山本幸生, 村上真也, 村上真也, 石原吉明, 津田雄一, 渡邊誠一郎, GASKELL Robert, PALMER Eric
    日本惑星科学会秋季講演会予稿集(Web), 2020, 2020  
  • 山本幸生, 春山純一, 河野功, 岩田隆浩, 石川博
    宇宙科学技術連合講演会講演集(CD-ROM), 63rd, 2019  
  • 岩田隆浩, 山本幸生, 春山純一
    宇宙科学技術連合講演会講演集(CD-ROM), 63rd, 2019  
  • 春山純一, 岩田隆浩, 山本幸生, 郭哲也, 郭哲也, 三宅亙, 熊本篤志, 石山謙, 横田康弘, 大野匠, 大野匠
    日本地球惑星科学連合大会予稿集(Web), 2019, 2019  
  • 西堀俊幸, 岩田隆浩, 春山純一, 山本幸生
    日本惑星科学会秋季講演会予稿集(Web), 2019, 2019  
  • Atsushi Yamazaki, Atsushi Yamazaki, Manabu Yamada, Yeon Joo Lee, Yeon Joo Lee, Shigeto Watanabe, Takeshi Horinouchi, Shin ya Murakami, Toru Kouyama, Kazunori Ogohara, Takeshi Imamura, Takao M. Sato, Yukio Yamamoto, Tetsuya Fukuhara, Hiroki Ando, Ko ichiro Sugiyama, Seiko Takagi, Seiko Takagi, Hiroki Kashimura, Shoko Ohtsuki, Naru Hirata, George L. Hashimoto, Makoto Suzuki, Chikako Hirose, Munetaka Ueno, Takehiko Satoh, Takehiko Satoh, Takumi Abe, Takumi Abe, Nobuaki Ishii, Masato Nakamura
    Earth, Planets and Space, 70(1), Dec 1, 2018  
    © 2018, The Author(s). The ultraviolet imager (UVI) has been developed for the Akatsuki spacecraft (Venus Climate Orbiter mission). The UVI takes ultraviolet (UV) images of the solar radiation reflected by the Venusian clouds with narrow bandpass filters centered at the 283 and 365 nm wavelengths. There are absorption bands of SO2and unknown absorbers in these wavelength regions. The UV images provide the spatial distribution of SO2and the unknown absorber around cloud top altitudes. The images also allow us to understand the cloud top morphologies and haze properties. Nominal sequential images with 2-h intervals are used to understand the dynamics of the Venusian atmosphere by estimating the wind vectors at the cloud top altitude, as well as the mass transportation of UV absorbers. The UVI is equipped with off-axial catadioptric optics, two bandpass filters, a diffuser installed in a filter wheel moving with a step motor, and a high sensitivity charge-coupled device with UV coating. The UVI images have spatial resolutions ranging from 200 m to 86 km at sub-spacecraft points. The UVI has been kept in good condition during the extended interplanetary cruise by carefully designed operations that have maintained its temperature maintenance and avoided solar radiation damage. The images have signal-to-noise ratios of over 100 after onboard desmear processing. [Figure not available: see fulltext.].
  • Naomoto Iwagami, Takeshi Sakanoi, George L. Hashimoto, Kenta Sawai, Shoko Ohtsuki, Seiko Takagi, Kazunori Uemizu, Munetaka Ueno, Shingo Kameda, Shin ya Murakami, Masato Nakamura, Nobuaki Ishii, Takumi Abe, Takehiko Satoh, Takeshi Imamura, Chikako Hirose, Makoto Suzuki, Naru Hirata, Atsushi Yamazaki, Takao M. Sato, Manabu Yamada, Yukio Yamamoto, Tetsuya Fukuhara, Kazunori Ogohara, Hiroki Ando, Ko ichiro Sugiyama, Hiroki Kashimura, Toru Kouyama
    Earth, Planets and Space, 70(1), Dec 1, 2018  
    © 2018, The Author(s). The status and initial products of the 1-μm camera onboard the Akatsuki mission to Venus are presented. After the successful retrial of Venus’ orbit insertion on Dec. 2015 (5 years after the failure in Dec. 2010), and after a long cruise under intense radiation, damage in the detector seems small and fortunately insignificant in the final quality of the images. More than 600 dayside images have been obtained since the beginning of regular operation on Apr. 2016 although nightside images are less numerous (about 150 in total at three wavelengths) due to the light scattered from the bright dayside. However, data acquisition stopped after December 07, 2016, due to malfunction of the electronics and has not been resumed since then. The 0.90-µm dayside images are of sufficient quality for the cloud-tracking procedure to retrieve wind field in the cloud region. The results appear to be similar to those reported by previous 1-μm imaging by Galileo and Venus Express. The representative altitude sampled for such dayside images is estimated to be 51–55 km. Also, the quality of the nightside 1.01-µm images is sufficient for a search for active volcanism, since interference due to cloud inhomogeneity appears to be insignificant. The quality of the 0.97-µm images may be insufficient to achieve the expected spatial resolution for the near-surface H2O mixing ratio retrievals.[Figure not available: see fulltext.].
  • 松本晃治, 野田寛大, 石原吉明, 千秋博紀, 竝木則行, 山本圭香, 渡邊誠一郎, 平田成, 平田直之, 山本幸生, 尾川順子, 菊地翔太, 佐伯孝尚, 津田雄一
    日本惑星科学会秋季講演会予稿集(Web), 2018, 2018  
  • NISHIKAWA Naoki, HIRATA Naoyuki, HIRATA Naru, SAYURI Tanaka, WATANABE Sei-ichiro, ISHIHARA Yoshiaki, TANAKA Satoshi, YAMAGUCHI Tomohiro, MIURA Akira, YAMAMOTO Yukio
    日本地球惑星科学連合大会予稿集(Web), 2018, 2018  
  • MATSUMOTO Koji, NODA Hirotomo, HIRATA Naru, YAMAMOTO Keiko, SENSHU Hiroki, HIGUCHI Arika, KAWAMURA Taichi, NAMIKI Noriyuki, WATANEBE Sei-ichiro, ISHIHARA Yoshiaki, TANAKA Satoshi, YAMAGUCHI Tomohiro, MIURA Akira, YAMAMOTO Yukio
    日本地球惑星科学連合大会予稿集(Web), 2018, 2018  
  • 渡邊誠一郎, 渡邊誠一郎, 吉川真, 田中智, 杉田精司, 北里宏平, 竝木則行, 岡田達明, 平田成, 平田直之, 山本幸生, 藪田ひかる, 中村智樹, 石原吉明, 佐伯孝尚, 津田雄一
    日本惑星科学会秋季講演会予稿集(Web), 2018, 2018  
  • Suzuki Hidehiko, Yamada Manabu, Kouyama Toru, Tatsumi Eri, Kameda Shingo, Honda Rie, Sawada Hirotaka, Ogawa Naoko, Morota Tomokatsu, Honda Chikatoshi, Sakatani Naoya, Hayakawa Masahiko, Yokota Yasuhiro, Yamamoto Yukio, Sugita Seiji
    Aug, 2017  
    50th ISAS Lunar and Planetary Symposium (August 3-4, 2017. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency (JAXA)(ISAS)), Sagamihara, Kanagawa Japan
  • 加藤広大, 菊池栞, 山田竜平, 山本幸生, 廣田雅春, 横山昌平, 石川博
    宇宙航空研究開発機構研究開発報告 JAXA-RR-(Web), (16-007), 2017  
  • 菊池栞, 加藤広大, 山田竜平, 山本幸生, 廣田雅春, 横山昌平, 石川博
    宇宙航空研究開発機構研究開発報告 JAXA-RR-(Web), (16-007), 2017  
  • 山本幸生, 春山純一
    宇宙科学技術連合講演会講演集(CD-ROM), 61st, 2017  
  • 杉山貴亮, 平田成, 渡邊誠一郎, 石原吉明, 田中智, 山口智宏, 三浦昭, 山本幸生
    日本惑星科学会秋季講演会予稿集(Web), 2017, 2017  
  • 平田成, 平田直之, 杉山貴亮, 金丸仁明, 千秋博紀, 北里宏平, 田中小百合, 西川直輝, 渡邊誠一郎, 石原吉明, 田中智, 山口智宏, 三浦昭, 山本幸生
    日本惑星科学会秋季講演会予稿集(Web), 2017, 2017  
  • 杉田精司, 諸田智克, 巽瑛理, 本田理恵, 本田親寿, 山田学, 神山徹, 横田康弘, 横田康弘, 平田成, 三浦昭, 山口智宏, 田中智, 山本幸生, 石原吉明, 千秋博紀
    日本惑星科学会秋季講演会予稿集(Web), 2017, 2017  
  • 北里宏平, 平田成, 出村裕英, 稲澤朋生, 安部正真, 山本幸生, 三浦昭, 川口淳一郎
    日本惑星科学会秋季講演会予稿集(Web), 2017, 2017  
  • 三浦昭, 山口智宏, 本田理恵, 横田康弘, 千秋博紀, 北里宏平, 山本幸生, 中村智樹, 野口高明, 本田親寿, 山田学, 和田浩二, 佐伯孝尚, 田中智
    日本惑星科学会秋季講演会予稿集(Web), 2017, 2017  
  • 渡邊誠一郎, 渡邊誠一郎, 石原吉明, 田中智, 山口智宏, 三浦昭, 山本幸生, 平田成, 諸田智克, 坂谷尚哉, 北里宏平, 松本晃治, 藪田ひかる
    日本惑星科学会秋季講演会予稿集(Web), 2017, 2017  
  • 末澤卓, 西堀俊幸, 春山純一, 河野功, 岩田隆浩, 山本幸生, 永松愛子
    宇宙科学技術連合講演会講演集(CD-ROM), 60th, 2016  
  • 大嶽久志, 大竹真紀子, 田中智, 増田宏一, 山本幸生, 三浦昭, 石原吉明
    日本地球惑星科学連合大会予稿集(Web), 2016, 2016  
  • 大嶽久志, 大竹真紀子, 田中智, 増田宏一, 山本幸生, 三浦昭, 石原吉明
    日本惑星科学会秋季講演会予稿集(Web), 2016, 2016  
  • Masato Nakamura, Nobuaki Ishii, Takeshi Imamura, Takehiko Satoh, Takumi Abe, Chikako Hirose, Atsushi Yamazaki, Junichi Nakatsuka, Tsutomu Ichikawa, Tomoaki Toda, Hiroyuki Toyoda, Sumitaka Tachikawa, Yukio Kamata, Makoto Suzuki, Takao M. Sato, Shin Ya Murakami, Yukio Yamamoto, Naomoto Iwagami, Makoto Taguchi, Tesuya Fukuhara, Shigeto Watanabe, Yukihiro Takahashi, Munetaka Ueno, Manabu Yamada, George L. Hashimoto, Naru Hirata, Toru Kouyama, Kazunori Ogohara, Hiroki Ando, Koichiro Sugiyama, Hiroki Kashimura, Shoko Ohtsuki
    Proceedings of the International Astronautical Congress, IAC, Jan 1, 2016  
    Copyright © 2016 by the International Astronautical Federation (IAF). All rights reserved. Japan's Venus Climate Orbiter Akatsuki was proposed to ISAS (Institute of Space and Astronautical Science) in 2001 as an interplanetary mission. We made 5 cameras with narrow-band filters to image Venus at different wavelengths to track the cloud and minor components distribution at different heights to study the Venusian atmospheric dynamics in 3 dimension. It was launched on May 21st, 2010 and reached Venus on December 7th, 2010. With the thrust by the orbital maneuver engine, Akatsuki tried to go into the westward equatorial orbit around Venus with the 30 hours' orbital period, however it failed by the malfunction of the propulsion system. Later the spacecraft has been orbiting the sun for 5 years. On December 7th, 2015 Akatsuki met Venus again after the orbit control and Akatsuki was put into the westward equatorial orbit whose apoapsis is about 0.44 million km and orbital period of 14 days. Its main target is to shed light on the mechanism of the fast atmospheric circulation of Venus. The systematic imaging sequence by Akatsuki is advantageous for detecting meteorological phenomena with various temporal and spatial scales. We have five photometric sensors as mission instruments for imaging, which are 1 m-infrared camera (IR1), 2 m-infrared camera (IR2), ultra-violet imager (UVI), long-wave infrared camera (LIR), and lightning and airglow camera (LAC). These photometers except LIR have changeable filters in the optics to image in certain wavelengths. Akatsuki's long elliptical orbit around Venus is suitable for obtaining cloud-tracked wind vectors over a wide area continuously from high altitudes. With the observation, the characterizations of the meridional circulation, mid-latitude jets, and various wave activities are anticipated. The technical issues of Venus orbit insertion in 2015 and the scientific new results will be given in this paper.
  • Yamamoto Yukio, Okada Naoki, Honjoh Eiji, Otomo Shoichi
    JAXA research and development report, 14 184-208, Mar, 2015  
    The function to simulate an instrument's field of view has been widely used in past missions, and will be used in future missions. We develop an FOV simulator, FLOW, based on SPICE Toolkit for versatile application. The FLOW is composed of two console programs: one is a simulation engine, and the other is an image generator. The simulation engine outputs an XML file which includes a simulated result. The image generator reads the XML output, and generates an image in FITS/PNG/JPEG formats. In this report, we describe the software requirement based on use-case of the FOV simulation, and FLOW's functions to draw. In addition, introduce a web-based FLOW application using FLOW.
  • Miura Akira, Yamamoto Yukio, Yoshikawa Makoto
    Proceedings of the IEICE General Conference, 2015(2) 11-11, Feb 24, 2015  
  • 三浦昭, 山本幸生, 吉川真
    電子情報通信学会大会講演論文集(CD-ROM), 2015, 2015  
  • Tatsuaki Okada, Kei Shirai, Yukio Yamamoto, Takehiko Arai, Kazunori Ogawa, Kozue Hosono, Manabu Kato
    Science, 345(6202) 1254, Sep 12, 2014  
  • Yamamoto Y.
    Planetary People, 23(2) 116-119, Jun, 2014  
  • 海老沢 研, 篠原 育, 高木 亮二, 三浦 昭, 山本 幸生
    宇宙航空研究開発機構研究開発報告, 13, Mar, 2014  
  • 春山純一, 西堀俊幸, 山本幸生, 岩田隆浩, 永松愛子, 石原吉明, 山本圭香, 河野功, 大槻真嗣, 加藤裕基, 諸田智克, 西野真木, 清水久芳, 宮本英昭, 白尾元理, 橋爪光, 佐伯和人, 小林憲正, 横堀伸一, 押上祥子, 長谷部信行, 長谷中利昭, 道上達広, 横田康弘, 山本聡, 小松吾郎, 小林敬生, 有隅仁
    日本惑星科学会秋季講演会予稿集(Web), 2014, 2014  
  • Abstracts Fall Meeting of the Japanese Society for Planetary Sciences, 2013 "O11-09", Nov 20, 2013  
  • Abstracts Fall Meeting of the Japanese Society for Planetary Sciences, 2013 "P1-28", Nov 20, 2013  
  • 海老沢 研, 篠原 育, 三浦 昭, 山本 幸生
    宇宙航空研究開発機構研究開発報告, 12, Mar, 2013  
  • DEMURA H., YAGUCHI Y., HISADA Y., MURASAWA M., YAMAMOTO Y., Executive committee of the Space Hackathon
    Planetary People, 21(4) 386-388, Dec 25, 2012  
  • 晴山 慎, 北條 勝巳, 大嶽 久志, 岩田 隆浩, 大竹 真紀子, 春山 純一, 山本 幸生
    日本惑星科学会秋期講演会予稿集, 2012 9-9, Oct 24, 2012  
  • Honda Rie, Yamamoto Yukio, Yamazaki Junichi, Tachino Junichi, Mitsuhashi Seiji
    JAXA research and development report, 11 141-149, Mar, 2012  
    A data distribution system for still and video images acquired by High Definition Television System (HDTV) on board JAXA's Lunar Explorer Kaguya (SELENE) is now being developed aiming at providing 1.06 million HDTV frame images for both objectives of outreach and scientific analysis. The design and data model of the system based on PDAP are described in the paper.
  • Yamada Ryuhei, Yamamoto Yukio, Kuwamura Jun, Nakamura Yosio
    JAXA research and development report, 11 121-131, Mar, 2012  
    The NASA Apollo missions from 1969 to 1977 provided the first-ever seismic data from a planetary body other than the Earth. Forty years after the acquisition of these lunar seismic data, lunar scientists continue to analyze them and derive new results related to lunar geophysics. However, the users often find the data difficult to obtain and analyze because at present not all data are publicly available and archived with a convenient interface, and also because the format of the archived data is unfamiliar to many seismologists. To alleviate this difficulty, we have developed a retrieval system for the Apollo seismic data that enables the user to obtain the data and metadata necessary to use them properly. To accomplish this, we first collected most of the Apollo lunar seismic data and information required to analyze them. Then, we built a relational database consisting of the decoded lunar seismic data and an application to access the database on the World Wide Web. Using the database and application, one can search and obtain the required lunar seismic data online. This new data retrieval system will allow more people to access the existing lunar seismic data; and we anticipate that future analysis of the archived data will generate significant progress towards better understanding of the Moon and the solar system.
  • 海老沢 研, 篠原 育, 三浦 昭, 山本 幸生
    宇宙航空研究開発機構研究開発報告, 11, Mar, 2012  
  • 岡田 達明, 中村 良介, 福原 哲哉, 田口 真, 今村 剛, 関口 朋彦, 長谷川 直, 小川 佳子, 松永 恒雄, 和田 武彦, 荒井 武彦, 北里 宏平, 山本 幸生, 太刀川 純孝, はやぶさ, リモートセンシングサブチーム
    日本惑星科学会秋期講演会予稿集, 2011 45-45, Oct 23, 2011  
  • M. Ebihara, S. Sekimoto, N. Shirai, Y. Hamajima, M. Yamamoto, K. Kumagai, Y. Oura, T. R. Ireland, F. Kitajima, K. Nagao, T. Nakamura, H. Naraoka, T. Noguchi, R. Okazaki, A. Tsuchiyama, M. Uesugi, H. Yurimoto, M. E. Zolensky, M. Abe, A. Fujimura, T. Mukai, Y. Yada
    SCIENCE, 333(6046) 1119-1121, Aug, 2011  
    A single grain (similar to 3 micrograms) returned by the Hayabusa spacecraft was analyzed by neutron activation analysis. This grain is mainly composed of olivine with minor amounts of plagioclase, troilite, and metal. Our results establish that the Itokawa sample has similar chemical characteristics (iron/scandium and nickel/cobalt ratios) to chondrites, confirming that this grain is extraterrestrial in origin and has primitive chemical compositions. Estimated iridium/nickel and iridium/cobalt ratios for metal in the Itokawa samples are about five times lower than CI carbonaceous chondrite values. A similar depletion of iridium was observed in chondrule metals of ordinary chondrites. These metals must have condensed from the nebular where refractory siderophile elements already condensed and were segregated.

Research Projects

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