Curriculum Vitaes
Profile Information
- Affiliation
- Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency
- Researcher number
- 00270439
- ORCID ID
https://orcid.org/0000-0003-4780-800X
- J-GLOBAL ID
- 200901004756228297
- researchmap Member ID
- 5000050882
Research Areas
1Papers
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GEOCHEMICAL JOURNAL, 2025
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Meteoritics & Planetary Science, 60(2) 273-285, Dec 24, 2024Abstract Understanding the processes of aqueous alteration within primitive bodies is crucial for unraveling the complex history of early planetesimals. To better identify the signs of this process and its consequences, we have studied the heterogeneity at a micrometric scale of the structure of the aliphatic organic compounds and its relationship to its mineralogical environment. Here, we report an analysis performed on two micrometric grains of Ryugu (C0002‐FC027 and C0002‐FC028). The samples were crushed in a diamond compression cell and analyzed using high‐spatial resolution Fourier Transform InfraRed (FT‐IR) hyperspectral imaging measurements conducted in transmission mode. We showed here the spatial distributions of the main components and the structural heterogeneity of the aliphatic organic matter highlighting a micrometer‐scale variability in the methylene‐to‐methyl ratio. Moreover, we connected this heterogeneity to the one of the phyllosilicate band positions. Our findings indicate that the organic matter within Ryugu's micrometric grains underwent varying degrees of aqueous alteration in distinct microenvironments resulting in an elongation of the length of their aliphatic chains, and/or a reduction in their branching and/or cross‐linking.
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Meteoritics & Planetary Science, 60(1) 3-16, Nov 25, 2024 Peer-reviewedAbstract Nucleosynthetic isotope variations are powerful tracers to determine genetic relationships between meteorites and planetary bodies. They can help to link material collected by space missions to known meteorite groups. The Hayabusa 2 mission returned samples from the Cb‐type asteroid (162173) Ryugu. The mineralogical, chemical, and isotopic characteristics of these samples show strong similarities to carbonaceous chondrites and in particular CI chondrites. The nucleosynthetic isotope compositions of Ryugu overlap with CI chondrites for several elements (e.g., Cr, Ti, Fe, and Zn). In contrast to these isotopes, which are of predominately supernovae origin, s‐process variations in Mo isotope data are similar to those of carbonaceous chondrites, but even more s‐process depleted. To further constrain the origin of this depletion and test whether this signature is also present for other s‐process elements, we report Zr isotope compositions for three bulk Ryugu samples (A0106, A0106‐A0107, C0108) collected from the Hayabusa 2 mission. The data are complemented with that of terrestrial rock reference materials, eucrites, and carbonaceous chondrites. The Ryugu samples are characterized by distinct 96Zr enrichment relative to Earth, indicative of a s‐process depletion. Such depletion is also observed for carbonaceous chondrites and eucrites, in line with previous Zr isotope work, but it is more extreme in Ryugu, as observed for Mo isotopes. Since s‐process Zr and Mo are coupled in mainstream SiC grains, these distinct s‐process variations might be due to SiC grain depletion in the analyzed materials, potentially caused by incomplete sample digestion, because the Ryugu samples were dissolved on a hotplate only to avoid high blank levels for other elements (e.g., Cr). However, local depletion of SiC grains cannot be excluded. An alternative, equally possible scenario is that aqueous alteration redistributed anomalous, s‐process‐depleted, Zr on a local scale, for example, into Ca‐phosphates or phyllosilicates.
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Nature Astronomy, 8 1529-1535, Sep 25, 2024
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Nature Communications, 15(1), Aug 29, 2024Abstract Primordial carbon delivered to the early earth by asteroids and meteorites provided a diverse source of extraterrestrial organics from pre-existing simple organic compounds, complex solar-irradiated macromolecules, and macromolecules from extended hydrothermal processing. Surface regolith collected by the Hayabusa2 spacecraft from the carbon-rich asteroid 162173 Ryugu present a unique opportunity to untangle the sources and processing history of carbonaceous matter. Here we show carbonaceous grains in Ryugu can be classified into three main populations defined by spectral shape: Highly aromatic (HA), Alkyl-Aromatic (AA), and IOM-like (IL). These carbon populations may be related to primordial chemistry, since C and N isotopic compositions vary between the three groups. Diffuse carbon is occasionally dominated by molecular carbonate preferentially associated with coarse-grained phyllosilicate minerals. Compared to related carbonaceous meteorites, the greater diversity of organic functional chemistry in Ryugu indicate the pristine condition of these asteroid samples.
Misc.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2006 3-3, 2006The laser altimetry (LIDAR) aboard the Hayabusa spacecraft measured the surface topography of the asteroid Itokawa and the mass calculated by spacecraft position without orbiting. The mass of Itokawa was estimated as 3.5 x 1010 kg, implying a bulk density of 1.9 g/cm3 and a bulk porosity of -40% when assuming chondritic meteorite composition(density of 3.2 g/cm3) (Abe et al, Science, 2006). In order to investigate the origin of Itokawa, especially for the interior structure and surface characteristics, we will discuss about the principal axis of inertia calculated by Itokawa's shape model and also present a 50m sized biggest bouldar, named 'Yoshinodai', on the surface by using near-infrared and visible spectra.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2006 5-5, 2006Concerning the controversy that the visible and near-infrared (NIR) reflectance spectra of the S-type asteroids and ordinary chondrites which are the most abundant in the near-Earth region do not match with each other, especially the hypothesis of space weathering had been strongest as the explanation in the past. As the result of visible and NIR observations of an S-type asteroid 25143 Itokawa by the Hayabusa Mission, such idea has become even more assuring. Itokawa consists of bright and dark portions in general, and both of those regions in any scale show spectra indicating a mineral assemblage consistent with only those of LL chondrites among all known meteorites, wherein the only differences are the mean optical path length and the degree of space weathering. The fact that an asteroid which is made of an LL-chondrite material and space-weathered to look as an S-type asteroid suggests that many more S asteroids made of ordinary-chondrite materials (including H and L types) exist in the near-Earth region.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2006 6-6, 2006In 2005, HAYABUSA observed an S-type asteroid Itokawa (with size of 550m) by onboard camera AMICA (Saito et al., 2006). Almost 80% of the surface is rough and boulder-rich but it has weathered spectrum on average. Optically, the surface of Itokawa is divided into brighter (and bluer) areas and darker (and redder) areas. In rough zones, dark boulder-rich surfaces usually superpose on bright materials. We can interpret impact-induced seismic shaking or shaking at planetary encounters should remove dark weathered boulder-rich surface to expose underlying relatively fresh bright area. High resolution images indicate that these bouldered surface are optically weathered. To check the possibility that the rock surface could be weathered, we irradiate pulse laser on meteorite fragments with cut flat surface under vacuum. For comparison, we also irradiate pellet samples where particle size is smaller than 125 microns. Fresh meteorites NWA1794 and Bensour were chosen because spectral observation of Itokawa suggested its similarity with LL5 and LL6 chondrites. As expected, significant darkening and reddening are observed at irradiating pellet samples.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2006 7-7, 2006The observation of Asteroid Itokawa by Hayabusa spacecraft has brought us a lot of new knowledge for very small (about 500m in length) S-type asteroid. We already have started to consider next space mission to small bodies in the solar system. For the next asteroid mission, we would like to explore C-type asteroid, which is also major type in the asteroid belt. This type of asteroid is supposed to have organic matter or water more than S-type asteroid, and it is important to study the material related to life. In this paper, we present the current plan for the next exploration to asteroids. We also want to encourage many researchers to join our asteroid mission.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2006 78-78, 2006Before the rendezvous of Hayabusa spacecraft with the asteroid Itokawa, various ground-based observations of the asteroid had been performed and a lot of physical quantities about Itokawa were presumed. We summarize these results and verify how effective these results were for the Hayabusa mission. Furthermore, based on the verification result, it is considered how ground-based observation for the candidate asteroid of the next asteroid exploration mission should be advanced.
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Astronomy and Astrophysics, 443(1) 347-355, Nov, 2005
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Aeronautical and space sciences Japan, 53(620) 272-276, Sep 5, 2005
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Proceedings of the IEICE General Conference, 2005(1) "SS-12"-"SS-13", Mar 7, 20052003年5月に打ち上げられた工学実験探査機「はやぶさ」は2005年夏に小惑星ITOKAWAに到着後、表面のサンプルを採取して2007年に地球に持ち帰る計画である。サンプル採取の前に、高度約10kmの地点から2ヶ月程度、可視光カメラ、近赤外線センサ、X線センサを用いて小惑星の観測を行い、科学観測とともに、着陸地点の選定に役立てることとしている。本稿では、「はやぶさ」の観測センサと観測計画の概要を述べる。
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Proceedings of the 6th International Conference on Low-Cost Planetary Mission 6, 2005
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Proceedings of the 15th Workshop on Astrodynamics and Flight Mechanics 15, 135-140, 2005
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Proceedings of 6th IAA International Conference on Low-Cost Planetary Missions 6, 133-136, 2005
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Proceedings of the 15th Workshop on Astrodynamics and Flight Mechanics, 135-140, 2005
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Proceedings of 6th IAA International Conference on Low-Cost Planetary Missions, 133-136, 2005
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36th Lunar and Planetary Science Conference 36, 1833, 2005
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Icarus 173, 173(1) 153-165, Jan, 2005
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宇宙科学技術連合講演会講演集(CD-ROM), 49th 3G08, 2005
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日本惑星科学会秋季講演会予稿集, 2005 25-25, 2005In order to Identify the surface mineral composition, meteorite type, and the degree of space weathering of the surface of the S-type asteroid Itokawa by the Hayabusa Spacecraft, we have started a research project of data acquisition and modeling of visible and near-infrared reflectance spectra of L and LL chondrite samples which are candidate materials for Itokawa. Although derivation of absorption band parameters using the modified Gaussian model with space weathering is a powerful method, the stability of its solutions with limited data poses a problem. Curve fitting using a mixing model may provide stable and reliable results depending on the quality and quantity of laboratory data. Especially, how to deal with three absorption bands of olivine in the 1-mm region will become a key to solve problems.
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日本惑星科学会秋季講演会予稿集, 2005 27-27, 2005We are developing the visible and near infrared spectrometer which will be installed in the lander/rover in the next minor body exploration in Japan following the HAYABUSA. The weight and size of the spectroscope including the dispersion and detection parts are 20 g and 54 x 32 x 9.5 mm, respectively. This condition of this equipment is small and light enough to be installed in the lander/rover. The spectrometer has a probe which is composed of the bunch of the fiber. The fiber is bundled with the fiber for the receiving light and source of light. In this study, first, we measured reflectance spectrum from surface of powdered mineral using the spectrometer. Next, we measured spectrum thrusting the probe into the powdered mineral. We confirmed that we can investigate material which is on planetary surface and underground using the spectrometer.
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日本惑星科学会秋季講演会予稿集, 2005 38-38, 2005We present the results of photometric observations of the near-Earth asteroid 65803 Didymos (1996 GT) in 2003 and 2005. Didymos has a complex lightcurve consisting of mainly two independent components. It suggests that the two-body system as asynchronous binary displaying the mutual eclipse/occultation by the satellite. Although the taxonomic type was revealed an M-type from the reflectance spectrum and phase curve, the bulk density is estimated at 1.4 +/- 0.3 g/cm3 by the analysis of the satellite orbit. This could indicate that Didymos is composed of, not metallic but, chondritic materials.
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日本惑星科学会秋季講演会予稿集, 2005 24-24, 2005We performed N (10 micron) and Q-band (20 micron) observations of 25143 Itokawa at the ESO La Silla 3.6m telescope with TIMMI2. At last apparition in 2001, Sekiguchi et al. (2003) derived its size and geometric albedo from STM analysis. Our new data in July 2004, in combination with already published data, allowed us to de-termine a radiometric effective diameter of 0.32+/-0.03km and an albedo of 0.19 +0.11/-0.03 through a Thermophysical Model. This effective diameter corresponds to 520 (+/-50) x 270 (+/-30) x 230 (+/-20) m based on the Kaasalainen et al.(2005) shape model with a lightcurve analysis using optical observations data. These re-sults are incompatible with them derived from radar observations in 15 % differ-ences. The obtained thermal inertia indicates a bare rock surface. The total mass of Itokawa was derived to be 4.5x10^10 kg from our results assuming the bulk density for S-type asteroids.
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日本惑星科学会秋季講演会予稿集, 2005 44-44, 2005An asteroid's lightcurve (time variation of its total brightness) depends on its physical characteristics, such as its position, shape, rotational vector, and the property of light reflection on its surface. The aim of this study is to understand how much we can derive information on these physical parameters from only its lightcurve. We examined the correlation between a lightcurve and each of the physical parameters of the asteroid, with a numerical model. Our numerical lightcurve model is modified from that of Hasegawa et al. (2000), which takes into account an asteroid's orbital elements, shape, rotational vector, and the parameters of light reflection on its surface. Hapke's macroscopic roughness model (1984) is applied to our model as the property of light reflection.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2005 24-24, 2005We performed N (10 micron) and Q-band (20 micron) observations of 25143 Itokawa at the ESO La Silla 3.6m telescope with TIMMI2. At last apparition in 2001, Sekiguchi et al. (2003) derived its size and geometric albedo from STM analysis. Our new data in July 2004, in combination with already published data, allowed us to de-termine a radiometric effective diameter of 0.32+/-0.03km and an albedo of 0.19 +0.11/-0.03 through a Thermophysical Model. This effective diameter corresponds to 520 (+/-50) x 270 (+/-30) x 230 (+/-20) m based on the Kaasalainen et al.(2005) shape model with a lightcurve analysis using optical observations data. These re-sults are incompatible with them derived from radar observations in 15 % differ-ences. The obtained thermal inertia indicates a bare rock surface. The total mass of Itokawa was derived to be 4.5x10^10 kg from our results assuming the bulk density for S-type asteroids.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2005 25-25, 2005In order to Identify the surface mineral composition, meteorite type, and the degree of space weathering of the surface of the S-type asteroid Itokawa by the Hayabusa Spacecraft, we have started a research project of data acquisition and modeling of visible and near-infrared reflectance spectra of L and LL chondrite samples which are candidate materials for Itokawa. Although derivation of absorption band parameters using the modified Gaussian model with space weathering is a powerful method, the stability of its solutions with limited data poses a problem. Curve fitting using a mixing model may provide stable and reliable results depending on the quality and quantity of laboratory data. Especially, how to deal with three absorption bands of olivine in the 1-mm region will become a key to solve problems.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2005 27-27, 2005We are developing the visible and near infrared spectrometer which will be installed in the lander/rover in the next minor body exploration in Japan following the HAYABUSA. The weight and size of the spectroscope including the dispersion and detection parts are 20 g and 54 x 32 x 9.5 mm, respectively. This condition of this equipment is small and light enough to be installed in the lander/rover. The spectrometer has a probe which is composed of the bunch of the fiber. The fiber is bundled with the fiber for the receiving light and source of light. In this study, first, we measured reflectance spectrum from surface of powdered mineral using the spectrometer. Next, we measured spectrum thrusting the probe into the powdered mineral. We confirmed that we can investigate material which is on planetary surface and underground using the spectrometer.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2005 38-38, 2005We present the results of photometric observations of the near-Earth asteroid 65803 Didymos (1996 GT) in 2003 and 2005. Didymos has a complex lightcurve consisting of mainly two independent components. It suggests that the two-body system as asynchronous binary displaying the mutual eclipse/occultation by the satellite. Although the taxonomic type was revealed an M-type from the reflectance spectrum and phase curve, the bulk density is estimated at 1.4 +/- 0.3 g/cm<SUP>3</SUP> by the analysis of the satellite orbit. This could indicate that Didymos is composed of, not metallic but, chondritic materials.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2005 44-44, 2005An asteroid's lightcurve (time variation of its total brightness) depends on its physical characteristics, such as its position, shape, rotational vector, and the property of light reflection on its surface. The aim of this study is to understand how much we can derive information on these physical parameters from only its lightcurve. We examined the correlation between a lightcurve and each of the physical parameters of the asteroid, with a numerical model. Our numerical lightcurve model is modified from that of Hasegawa <I>et al.</I> (2000), which takes into account an asteroid's orbital elements, shape, rotational vector, and the parameters of light reflection on its surface. Hapke's macroscopic roughness model (1984) is applied to our model as the property of light reflection.
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International Astronautical Federation - 55th International Astronautical Congress 2004, 10 6597-6604, 2004
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SCIENTIFIC EXPLORATION, PLANETARY PROTECTION, ACTIVE EXPERIMENTS AND DUSTY PLASMAS, 34(11) 2281-2285, 2004
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日本惑星科学会秋季講演会予稿集, 2004 117-114, 2004We present the results of photometric observations of 65803 Didymos. Didymos is a near-Earth-asteroid belonging to the PHA (Potentially Hazardous Asteroid) group and one of the most accessible asteroids by spacecraft. Didymos has a complex lightcurve that can be described as the co-addition of two independent components: periodic wave with double peak and temporal depression of brightness. Therefore, it suggests a system of two bodies that secondary orbits around primary, displaying both eclipses and occultation.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2004 110-110, 2004Following up Hayabusa's heritage for asteroid sample return, the 'Minor Body Exploration Working Group' was officially approved this March, in order to design and propose a next generation minor body exploration mission by the end of FY 2006. At present, strategic developments include a sampling mechanism to retain stratigraphic information on a C-type asteroid surface and a rover system to observe the filed of occurrence of samples. This talk discusses its scientific objectives, possible mission targets, and status of such strategic developments.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2004 110-110, 2004Following up Hayabusa's heritage for asteroid sample return, the 'Minor Body Exploration Working Group' was officially approved this March, in order to design and propose a next generation minor body exploration mission by the end of FY 2006. At present, strategic developments include a sampling mechanism to retain stratigraphic information on a C-type asteroid surface and a rover system to observe the filed of occurrence of samples. This talk discusses its scientific objectives, possible mission targets, and status of such strategic developments.
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Abstracts for fall meeting of the Japanese Society for Planetary Science, 2004 114-114, 2004We present the results of photometric observations of 65803 Didymos. Didymos is a near-Earth-asteroid belonging to the PHA (Potentially Hazardous Asteroid) group and one of the most accessible asteroids by spacecraft. Didymos has a complex lightcurve that can be described as the co-addition of two independent components: periodic wave with double peak and temporal depression of brightness. Therefore, it suggests a system of two bodies that secondary orbits around primary, displaying both eclipses and occultation.
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日本惑星科学会秋季講演会予稿集, 2003 93-74, Oct 8, 2003Space weathering has been invoked to explain the mismatched spectra between asteroid type and meteorite classes. It affects on the reflectance spectra as the darkening and reddening of planetary surface materials and the changes to the depths of absorption bands.<BR> In this study we measured the bidirectional diffused reflectance spectra of L6 chondrite Yamato-75102, from 300nm to 2600nm with the particle size varied. The sample is not so suffered by weathering on terrestrial. We discuss quantitatively the dependence on particle size for the reflectance spectra characterization.
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日本惑星科学会秋季講演会予稿集, 2003 94-87, Oct 8, 2003Asteroid 4 Vesta is a peculiar asteroid due to its basaltic composition. Many multi-band observations for Vesta were carried out and at last the image of Vesta were obtained by Hubble Space Telescope in 1994, and a geologic map was made.2003. <BR> We made the visual observation using a transportable 10 cm refracting telescope with a MUTOH CV-16 CCD in ECAS filter system. Infrared observations were carried out using 105cm Schmidt telescope with Mitsubishi 1040 x 1040 PtSi CSD (KONIC) in H band at Kiso Observatory. And we made spectroscopic observation (500nm to 900nm) using a 65 cm reflecting telescope and GCS (Gunma Compact Spectrograph) at Gunma Astronomical Observatory.<BR>We report consideration of the effect of space weathering as well as the inhomogeneous distribution of minerals on the surface of Vesta.<BR>
Books and Other Publications
3Presentations
2Research Projects
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Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, Apr, 2019 - Mar, 2022
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Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, Apr, 2016 - Mar, 2019
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Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, 2006 - 2007
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Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, 2005 - 2006
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Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, 2002 - 2003