Curriculum Vitaes
Profile Information
- Affiliation
- Institute of Space and Astronautical Science, Japan Aerospace Exploration AgencySchool of Physical Sciences Department of Space and Astronautical Science, The Graduate University for Advanced StudiesGraduate School of Science Department of Cosmosciences, Hokkaido University
- Degree
- 博士(理学)(Apr, 1992, 東京理科大学)
- ORCID ID
https://orcid.org/0000-0001-9071-5808- J-GLOBAL ID
- 202001012016475356
- researchmap Member ID
- R000011886
Research Interests
3Research History
5-
Dec, 2006 - Present
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May, 2001 - Nov, 2006
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Apr, 1997 - Apr, 2001
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Oct, 1993 - Mar, 1997
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Apr, 1992 - Sep, 1993
Papers
58-
Journal of Geophysical Research: Planets, Mar, 2024
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Journal of Geophysical Research: Planets, Oct, 2023 Peer-reviewed
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Geophysical Research Letters, Jan 28, 2023 Peer-reviewed
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The Planetary Science Journal, 3(9) 209-209, Sep 1, 2022 Peer-reviewedAbstract We performed a unique Venus observation campaign to measure the disk brightness of Venus over a broad range of wavelengths in 2020 August and September. The primary goal of the campaign was to investigate the absorption properties of the unknown absorber in the clouds. The secondary goal was to extract a disk mean SO2 gas abundance, whose absorption spectral feature is entangled with that of the unknown absorber at ultraviolet wavelengths. A total of three spacecraft and six ground-based telescopes participated in this campaign, covering the 52–1700 nm wavelength range. After careful evaluation of the observational data, we focused on the data sets acquired by four facilities. We accomplished our primary goal by analyzing the reflectivity spectrum of the Venus disk over the 283–800 nm wavelengths. Considerable absorption is present in the 350–450 nm range, for which we retrieved the corresponding optical depth of the unknown absorber. The result shows the consistent wavelength dependence of the relative optical depth with that at low latitudes, during the Venus flyby by MESSENGER in 2007, which was expected because the overall disk reflectivity is dominated by low latitudes. Last, we summarize the experience that we obtained during this first campaign, which should enable us to accomplish our second goal in future campaigns.
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Journal of Geophysical Research: Planets, 127(6), Jun, 2022 Peer-reviewed
Misc.
68-
遊・星・人 = Planetary people : 日本惑星科学会誌, 33(1) 74-77, Mar, 2024
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Planetary People - The Japanese Society for Planetary Sciences, 27(3) 147-151, 2018 Peer-reviewed
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Planetary People, 25(1) 4-7, Mar, 2016
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Planetary People, 24(4) 339-341, Dec, 2015
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Planetary People, 21(2) 175-179, Jun, 2012
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TRANSACTIONS OF THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES, AEROSPACE TECHNOLOGY JAPAN, 10(ists28) Tk\_19-Tk\_25, 2012Since 2008, a new plan for next Mars exploration program has been proposed and discussed by scientists and engineers in Japan. This exploration program is named MELOS, or Mars Exploration with Lander and Orbiter Synergy, a long-awaited program in the planetary science community in Japan after unsuccessful end of Nozomi Mars orbiter and ongoing challenge of Akatsuki Venus orbiter. The goal of the whole program is to understand Mars as a system, by elucidation of Martian climate, atmospheric escape, internal structure, surface environment and interaction by them. A series of missions has been planned, and several spacecraft including orbiters and landers are under discussion to be launched in early 2020's. In this paper, we investigate launch opportunities during early 2020's and estimate the payload mass in each case. Feasible interplanetary transfer trajectories from Earth to Mars are proposed. Preliminary design of insertion sequence into the Mars orbit and some orbit candidates derived from mission requirements are also shown together with numerical simulation results.
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Planetary People - The Japanese Society for Planetary Sciences, 20(2) 191-195, 2011
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IEICE technical report, 110(250) 137-140, Oct 20, 2010Japanese Venus Climate Orbiter "AKATSUKI" (PLANET-C) was successfully launched at 06:58:22JST on May 21st by H-IIA F17. It has 5 camers as mission instruments to study the venusian climate. Details of the instruments are described in this paper. Ultraviolet Imager (UVI 0.365μm),1μm Camera (IR1: 0.9μm),Longwave IR Camera (LIR: 8-12μm) were initialized at 20:50JST and took snapshots of the earth. Distance from the earth was 250,000km, and the apparent diameter was 2.8 degrees. UVI and IR1 detected the scattered sun light, while LIR detected the IR emission from the earth's body and can take the picture of the whole planet.
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Planetary people, 18(2) 105-107, Jun 25, 2009
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IEICE technical report, 108(318) 19-21, Nov 17, 2008The Venus Climate Orbiter mission (PLANET-C), one of the future planetary missions of Japan, aims at understanding the atmospheric circulation of Venus. Meteorological information will be obtained by globally mapping clouds and minor constituents successively with 4 cameras at ultraviolet and infrared wavelengths, detecting lightning with a high-speed imager, and observing the vertical structure of the atmosphere with radio science technique. The equatorial elongated orbit with westward revolution fits the observation of the movement and temporal variation of the atmosphere which rotates westward. The systematic, continuous imaging observations will provide us with an unprecedented large dataset of the Venusian atmospheric dynamics. Planet-C will be launched in 2010 and will reach Venus in 5 months. Nominal operation period is 2 earth years.
Research Projects
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科学研究費助成事業, 日本学術振興会, Apr, 2023 - Mar, 2027
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科学研究費助成事業 基盤研究(B), 日本学術振興会, Apr, 2023 - Mar, 2027
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科学研究費助成事業, 日本学術振興会, Apr, 2023 - Mar, 2026
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Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (C), Japan Society for the Promotion of Science, Apr, 2020 - Mar, 2023
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Star watching with Wi-Fi technology! New constellation camera Wi-CAN for international communicationGrants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (C), Japan Society for the Promotion of Science, Apr, 2017 - Mar, 2020
