Session Details
[P-PS02]Regolith Science
Wed. May 29, 2019 5:15 PM - 6:30 PM JST
Wed. May 29, 2019 8:15 AM - 9:30 AM UTC
Wed. May 29, 2019 8:15 AM - 9:30 AM UTC
Poster Hall International Exhibition Hall8, Makuhari Messe_2
convener:Koji Wada(Planetary Exploration Research Center, Chiba Institute of Technology), Akiko Nakamura(Graduate School of Science, Kobe University), Patrick Michel(Observatoire De La Cote D'Azur), Kevin John Walsh(Southwest Research Institute Boulder)
Recent planetary explorations have revealed that almost all solid bodies in the solar system are covered with small particles, called regolith. The surface geology, especially regolith behavior on the surfaces of solid bodies, becomes increasingly more important as represented by Hayabusa mission and other on-going and planned sample-return missions such as Hayabusa2, OSIRIS-REx, and MMX.<br/><br/>For fully understanding the regolith science, it is required to know and compare the regolith conditions on various celestial bodies, from asteroids to planets, with various methods.<br/><br/>Therefore, this session welcomes broad topics related to regolith on various celestial bodies, such as asteroids, comets, the Moon, the martian moons, Mars, etc. Papers on the formation, evolution, and alteration processes of regolith particles and regolith systems on the surface of planetary bodies, remote and in-situ observational results and techniques, analyses and results of returned samples, and laboratory, numerical, and theoretical studies on the fundamental physical and chemical processes are all welcome. <br/><br/>Note that what we call regolith is not just fine grains: all kinds of materials (more or less loose) that lie on the surface, from cobbles to finer grains, are our targets.
[PPS02-P01]Abrasion experiments of mineral and meteorite grains: Dependence of particle size and vibration rate on abrasion rate and its application to Itokawa and lunar regolith particles.
*Hirotaka Yamaguchi1, Akira Tsuchiyama1, Akiko Nakamura2 (1.National University Corporation, Kyoto University, 2.National University Corporation,Kobe University)
[PPS02-P02]Measurements of adhesive force of meteorite powders using centrifugal method
*Yuuya Nagaashi1, Akiko Nakamura1 (1.Kobe University)
[PPS02-P03]Laboratory impact penetration experiments conducted at simulated reduced gravity
*Akiko Nakamura1, Kana Morizono2, Yuuya Nagaashi1 (1.Graduate School of Science, Kobe University, 2.Faculty of Science, Kobe University)
[PPS02-P04]MARAUDERS: Using instrumented nano-impactors to probe the icy properties of Lunar permanently shadowed regions
*Ronald Ballouz1, Sarah T Crites2, Naoya Ozaki2, Shun Arahata3, Nicola Baresi2, Ralf Bolden, Onur Celik4,2, Yu Himeno3, Lucie Riu2, Kevin J Walsh5 (1.Lunar and Planetary Lab, University of Arizona, Tucson, AZ, USA, 2.Institute of Space and Astronautical Science, Sagamihara, Japan, 3.University of Tokyo, Tokyo, Japan, 4.Sokendai Graduate University, Japan, 5.Southwest Research Institute, Boulder, CO, USA)
[PPS02-P05]Surface size-frequency distribution of accumulating boulders using discrete element simulations of spherical particles in 3D
*Hiroshi Kikuchi1, Hideaki Miyamoto1 (1.The University of Tokyo)
[PPS02-P06]Experimental Study to Determine the Best Compression Ratio of High-Resolution Images of Small Bodies for the Martian Moons eXploration (MMX) Mission
*Yuta Shimizu1, Hiroaki Kamiyoshihara1, Takafumi Niihara1, Hideaki Miyamoto1 (1.University of Tokyo)