Publications 2018

* Paper

  1. Matsumoto T., Hasegawa S., Nakao S., Sakai M., and Yurimoto H., 2018. Population characteristics of submicrometer-sized craters on regolith particles from asteroid Itokawa. Icarus, Volume 303, p. 22-33.

  2. Sugahara H., Takano Y., Karouji Y., Kumagai K., Yada T., Ohkouchi N., Abe M. and Hayabusa2 project team., 2018. Amino acids on witness coupons collected from the ISAS/JAXA curation facility for the assessment and quality control of the Hayabusa2 sampling procedure. Earth, Planets and Space, Volume 70, Issue 194.

  3. Terada K., Sano Y., Takahata N., Ishida A., Tsuchiyama A., Nakamura T., Noguchi T., Karouji Y., Uesugi M., Yada T., Nakabayashi M., Fukuda K., and Nagahara H., 2018. Thermal and impact histories of 25143 Itokawa recorded in Hayabusa particles. Scientific Reports, Volume 8, Article number: 11806

  4. Yada T., Kumagai K., Abe M., Okada T., Yoshitake M., Sakamoto K., Nakano Y., Matsumoto T., Kawasaki N., Nishimura M., Matsui S., and Yurimoto H., 2018. Hayabusa Asteroid Sample catalog 2017. JAXA Special Publication, JAXA-SP-17-005E: 1-717.

  5. Harries D., and Langenhorst F., 2018. Carbide-metal assemblages in a sample returned from asteroid 25143 Itokawa: Evidence for methane-rich fluids during metamorphism. Geochimica et Cosmochimica Acta, Volume 222, p. 53-73.

  6. Michikami T., Kadokawa T., Tsuchiyama A., Hagermann A., Nakano T., Uesugi K., and Hasegawa S., 2018. Influence of petrographic textures on the shapes of impact experiment fine fragments measuring several tens of microns: Comparison with Itokawa regolith particles. Icarus, Volume 302, p. 109-125.

  7. Szalay J. R., Poppe A. R., Agarwa J., Britt l. D., Belskaya I., Horányi M., Nakamura T., Sachse M., and Spahn F., 2018. Dust Phenomena Relating to Airless Bodies. Space Science Reviews, 214:98.

* Proceedings, Abstracts, and Catalogues

  1. Abe M., Yada T., Okada T., Sakamoto K., Yoshitake M., Nakano Y., Matsumoto T., Kawasaki N., Kumagai K., Matsui S., Nishimura M. and Yurimoto H., 2018. Curation facility for asteroid sample return missions in JAPAN. 49th Lunar and Planetary Science Conference, Abstract #1211.

  2. Jourdan F., Timms E. N., Nakamura T., Rickard A. D. W., Eroglu E., Mayers C., Bland A. P., Oike R., and Yada T., 2018. Itokawa, a >4.2 Ga old rubble pile asteroid (abstract #1206-1130). Hayabusa 2018: Symposium of Solar System Materials.

  3. Matsumoto T., Harries D., Nakauchi Y., Asada Y., Takigawa A., Tsuchiyama A., Abe M., Miyake A., Nakao S., and Langenhorst F., 2018. Space weathered rims on iron sulfide of Itokawa regolith particles. Japan Geoscience Union Meeting 2018, Abstract #PPS06-12.

  4. Terada K., Sano Y., Takahata N., Ishida A., Tsuchiyama A., Nakamura T., Noguchi T., Karouji Y., Uesugi M., Yada T., Nakabayashi M., Fukuda K., and Nagahara H., 2018. U-Pb systematics of Hayabusa particles: Constrains on the thermal and impact histories of 25143 Itokawa (abstract #1206-1115). Hayabusa 2018: Symposium of Solar System Materials.

  5. Timms N., Rickard W., Jourdan F., Fougerouse D., Reddy S., Saxey D., Daly L., Bland P., Nakamura T., Oike R., and Yada T., 2018. Impact Melt Immiscibility and Resulting Element Segregation on the Itokawa Asteroid. Goldschmidt2018 (No abstract number).

  6. Timms E. N., Jourdan F., Rickard A. D. W., Nakamura T., Saxey D., Fougerouse D., Reddy S., Daly L., Bland P. A., Quadir Z., Oike R., and Yada T., 2018. Itokawa chondrule fragment preserves evidence of proto-planetary disk processing (abstract #1206-1145). Hayabusa 2018: Symposium of Solar System Materials.

  7. Uesugi M., Ito M., Tomioka N., Ohigashi T., Uesugi K., Karouji Y., Shirai N., Yamaguchi A., Imae N., Yada T., and Abe M., 2018. Development of analytical method of Haybusa2 returned samples by multi-agency collaboration. Japan Geoscience Union Meeting 2018, Abstract #PPS03-25.

  8. Yada T., Abe M., Okada T., Sakamoto K., Yoshitake M., Nakano Y., Matsumoto T., Kawasaki N., Kumagai K., Nishimura M., Matsui S., Yurimoto H., and Fujimoto M., 2018. From Hayabusa to Hayabusa2 - the present status and plans for the sample curations of the sample return missions by JAXA. Japan Geoscience Union Meeting 2018, Abstract #PPS03-P10.

  9. Yada T., Sakamoto K., Yoshitake M., Kumagai K., Nishimura M., Nakano Y., Furuya S., Abe M., Okada T., Tachibana S., Yurimoto H., Fujimoto M., 2018. From Hayabusa to Hayabusa2: Present Status and Plans for Sample Curations of Asteroidal Sample Return Missions by JAXA. 81st Ann. Meeting Meteoritical Society, Abstract #6117.

  10. Yada T., Sakamoto K., Yoshitake M., Kumagai K., Nishimura M., Yogata K., Nakano Y., Furuya S., Abe M., Okada T., Tachibana S., Yurimoto H. and Fujimoto M., 2018. From Hayabusa to Hayabusa2: Present status and plans of curatorial works for JAXA’S asteroidal sample return missions (abstract #1206-0930). Hayabusa 2018: Symposium of Solar System Materials.

  11. 矢田 達, 与賀田 佳澄, 坂本 佳奈子, 吉武 美和, 古屋 静萌, 西村 征洋, 熊谷 和也, 岡田 達明, 安部 正真 and 圦本 尚義, 2018. JAXA地球外物質研究グループによる太陽系探査活動:「はやぶさ2」試料受入準備等の最新状況レポート(要旨 #P31). 日本惑星科学会秋季講演会.

  12. Brealy J. A., Jones H. R., Burnett L. T., Donoghue J., and Nakamura T., 2018. Exploring the potential of Xe+ Plasma FIB for minimum mass-loss sectioning of meteoritic analogs of coarse-grained (0.2-1mm) asteroidal samples from the JAXA Hayabusa 2 sample return mission to asteroid Ryugu (abstract #1206-1200). Hayabusa 2018: Symposium of Solar System Materials.

  13. Bugess D. K., and Stroud R., 2018. Searching for Volatiles in Space Weathered Grains (abstract #1206-1200). Hayabusa 2018: Symposium of Solar System Materials.

  14. Cipriani F., Koschny D., Drozdovski N., Colangeli L., Shortt B., Butler B., Sanders S., Luijt C. D., Breeveld D., Ferrari M., Corte D. V., Accolla M., Rotundi A., 2018. Electrical properties of Itokawa grains returned by Hayabusa (abstract #OA-P20). Hayabusa 2018: Symposium of Solar System Materials.

  15. Cloutis E. A., Trang D., and Lucey P.G., 2018. The Effect of Opaque Materials on Spectral Reflectance of the Cherokee Springs LL Chondrite: Implications for Asteroid Itokawa. 49th Lunar and Planetary Science Conference, Abstract #1591.

  16. Daly L., Lee M. R., Hallis L. J., Bland P. A., Reddy S. M., Saxey D. W., Rickard W. D. A., Fougerouse D., Timms N. E., and Jourdan F., 2018. Atomic scale depth profile of space weathering in an Itokawa olivine grain. 49th Lunar and Planetary Science Conference, Abstract #1495.

  17. Daly L., Lee M. R., Hallis L. J., Bland P. A., Reddy S. M., Saxey D. W., Rickard W. D. A., Fougerouse D., Timms N. E., Jourdan F., Cox A. M., Salge T., Ishii A. H., Bladley P. J., Aguiar J., Hattar K., Keller P. L., Thompson S. M., and Christoffersen R., 2018. The origin of hydrogen in space weathered rims of Itokawaregolith particles (abstract #1206-1015). Hayabusa 2018: Symposium of Solar System Materials.

  18. Dionnet Z., Aléon-Toppani A., Borondics F., Brunetto R., Buellet A. C., Djouadi Z., King A., Rubino S., and Troadec D., 2018. FTIR Micro-tomography of Five Itokawa Particles and one Primitive Carbonaceous Chondrite. Proceedings of Microscopy & Microanalysis 2018, Volume 24, Supplement S1, p. 2100-2101

  19. Fazio A., Harris D., and Langenhorst F., 2018. Collisional fragmentation of an olivine-enstatite-rich Itokawa particle (abstract #1206-1045). Hayabusa 2018: Symposium of Solar System Materials.

  20. Fazio A., Harries D., Schmidt D., Pollok K., and Langenhorst F., 2018. From laser experiments to nature: How accurately can we reproduce space weathering? EPSC 2018, Berlin, Germany. EPSC Abstracts Vol. 12, EPSC2018-683.

  21. Harries D., Matsumoto T., Fazio A., Uesugi M., and Langenhorst F., 2018. Solar wind-induced space weathering on asteroid Itokawa. EPSC 2018, Berlin, Germany. EPSC Abstracts Vol. 12, EPSC2018-368.

  22. Hicks J. L., Bridges C. J., Noguchi T., Ireland T., Miyake A., and Piercy D. J., 2018. Synchrotron Nanoprobe Analysis of Space Weathered Itokawa Grain (abstract #1206-1030). Hayabusa 2018: Symposium of Solar System Materials.

  23. Jin Z., and Bose M., 2018. Water-Rich S-Type Asteroid Itokawa. Goldschmidt2018 (No abstract number).

  24. Jin Z. L., Bose M., and Peeters Z., 2018, New Clues to Ancient Water on Itokawa. 49th Lunar and Planetary Science Conference, Abstract #1670.

  25. Jin Z., and Bose M., 2018. Establishing Itokawa’s water contribution to Earth (abstract #1206-1000). Hayabusa 2018: Symposium of Solar System Materials.

  26. Liu M. -C., 2018. The boron isotopic composition of the implanted solar wind in Itokawa grains: Technical development (abstract #OA-P21). Hayabusa 2018: Symposium of Solar System Materials.

  27. Matsumoto T., Harries D., Miyake A., Langenhorst F., 2018. Space Weathering of Iron Sulfide Grains from Asteroid 25143 Itokawa. 81st Ann. Meeting Meteoritical Society, Abstract #6096.

  28. Matsuno J., and Tsuchiyama A., 2018. Visualizationon XCT data of Hayabusa samples: 3D printings and VR (abstract #OA-P22). Hayabusa 2018: Symposium of Solar System Materials.

  29. Pace L. F., Righter K., Nakamura-Messenger K., and McQuillan J., 2018. OSIRIS-REx and Hayabusa2 Sample Cleanroom Design and Construction Planning at NASA–JSC. 49th Lunar and Planetary Science Conference, Abstract #2507.

  30. Rickard W.D.A., Timms N.E., Jourdan F., Fougerouse D., Reddy S.M., Saxey D.W., Daly L. and Bland P.A., 2018. High Resolution Chemical Analysis of Grains From the Itokawa Asteroid by FIB-ToF-SIMS. 19th International Microscopy Congress (no abstract number).

  31. Rickard W.D.A., Timms N.E., Jourdan F., Saxey D.W., Fougerouse D., Reddy S.M., Daly L., Bland P.A., and Quadir Z., 2018. Nanoscale Characterisation of Grains From the Itokawa Asteroid by FIB-ToF-SIMS, APM and TEM. XXII Meeting of the International Mineralogical Association (no abstract number).

  32. Shrader L. D., and Zega J. T., 2018. Preliminary results fromsulfide Hayabusa particle RB-CV-0234 (abstract #1206-1215). Hayabusa 2018: Symposium of Solar System Materials.

  33. Tanbakouei S., Trigo-Rodríguez J.M., Pellicer E., and Sort J., 2018. Mechanical Properties of Silicate-Rich Itokawa Regolith Particles. 49th Lunar and Planetary Science Conference, Abstract #1613.

  34. Tanbakouei S., Trigo-Rodríguez M. J., and Sort J., 2018. Physical Properties of Silicate-Rich Regolith Particles from Itokawa Asteroid (abstract #1206-0945). Hayabusa 2018: Symposium of Solar System Materials.

  35. Tsuchiyama A., Ogawa M., Matsuno J., Uesugi K., Okumura S., and Sasaki O., 2018. Abrasion Experiments of Mineral and Meteorite Grains; Application to Shape Evolution of Regolith Particles on Airless Bodies. 49th Lunar and Planetary Science Conference, Abstract #1844.

  36. Zolensky M., Martinez J., Sitzman S., Mikouchi T., Hagiya K., Ohsumi K., Terada Y., Yagi N., Komatsu M., Ozawa H., Taki Y., Yamasuta Y., Takenouchi A., Hasegawa H., Ono H., Higashi K., Takata M., Hirata A., Kurokawa A., and Yamaguchi S., 2018. Measuring the Shock Stage of Asteroid Regolith Grains by Electron Back-Scattered Diffraction. 49th Lunar and Planetary Science Conference, Abstract #2049.

  37. Zolensky M., Martinez J., Sitzman S., Mikouchi T., Hagiya K., Ohsumi K., Terada Y., Yagi N., Komatsu M., Ozawa H., Taki Y., Yamatsuta Y., Takenouchi A., Hasegawa H., Ono H., Higashi K., Takata M., Hirata A., Kurokawa A., and Yamaguchi S., 2018. Measuring Shock Stage of Itokawa and Other Asteroid Regolith Grains by Electron Back-Scattered Diffraction (abstract #1206-1100). Hayabusa 2018: Symposium of Solar System Materials.