Session Details
[P-PS09]Mars and martian moons
Tue. May 27, 2025 5:15 PM - 7:15 PM JST
Tue. May 27, 2025 8:15 AM - 10:15 AM UTC
Tue. May 27, 2025 8:15 AM - 10:15 AM UTC
Poster Hall Exhibition Hall 7&8, Makuhari Messe
convener:Hideaki Miyamoto(University of Tokyo), Tomoki Nakamura(Department of Earth and Planetary Materials Sciences, Faculty of Science, Tohoku University), Hidenori Genda(Earth-Life Science Institute, Tokyo Institute of Technology), Takeshi Imamura(Graduate School of Frontier Sciences, The University of Tokyo)
Mars exploration has accelerated; at least one robotic mission has been continuously operating near Mars since 1997, and the number of spacecraft observing Mars has steadily increased. There are now three rovers on the surface of Mars and eight spacecraft in orbit around Mars. Several new missions are about to launch, including the MMX mission to explore Phobos, Deimos, and Mars, scheduled for launch in 2026. This session will discuss recent results from a wide range of Mars studies, including the interior, surface, atmosphere, plasma environment, and the Mars system, including its two satellites. Abstracts on instrumentation, theoretical studies, and future mission plans are also encouraged for this session, as both the presenters and the audience would greatly benefit from the ensuing discussion and feedback.
[PPS09-P01]Effects of water vapor on the evolution of an impact-generated disk around Mars
*Courteney Summer Monchinski1, Shigeru Ida1, Hidenori Genda1 (1.Earth-Life Science Institute)
[PPS09-P02]Microscopic analysis of the oxygen ion irradiated Phobos analogue materials: Implications for space weathering processes on Martian moons
*Haruhisa Tabata1, Rei Kanemaru1, Tomohiro Usui1,2 (1.ISAS/JAXA, 2.The University of Tokyo, Department of Earth and Planetary Science)
[PPS09-P03]Distribution of Primary Impacts on Phobos and Deimos Based on Numerical Simulations
*Hiroshi Kikuchi1 (1.Gakushuin university)
[PPS09-P04]Reproduction Experiments of Phobos Constituent Materials Using a Gas-jet Levitation System Based on the Giant Impact Hypothesis
*Kawada Rieto1, Tomoki Nakamura1, Kana Watanabe1, Morita Tomoyo1, Hidenori Genda2 (1.Tohoku University , 2.Institute of Science Tokyo)
[PPS09-P05]Simulation of Improving Phobos Gravity Field Accuracy through Stepwise Reduction of Quasi-Satellite Orbit Altitudes
*Keiko Yamamoto1, Koji Matsumoto1, Hitoshi Ikeda2, Julien Laurent-Varin3, Jean-Charles Marty3, Hiroshi Araki1 (1.National Astronomical Observatory of Japan, 2.Japan Aerospace Exploration Agency, 3.Centre National d’Études Spatiales)
[PPS09-P06]Tentative improvement of the initial High altitude Quasi-Satellite-Orbit (QSO-H) of Martian Moons’ eXploration (MMX) using onboard Light Detection and Ranging (LIDAR) data
*Hiroshi Araki1, Keiko Yamamoto, Koji Matsumoto, Noriyuki Namiki, Shota Kikuchi, Hirotomo Noda (1.National Astronomical Observatory of Japan)
[PPS09-P07]Numerical simulation of seismic waveforms to evaluate Martian subsurface heterogeneity inferred from seismic records of a meteoroid impact
*Hayato Hirai1, Takuto Maeda1, Shiro Hirano1 (1.Graduate School of Science and Technology, Hirosaki University)
[PPS09-P08]Towards Future Mars Missions: Insights from the ISAS Planetary Exploration Workshop and Symposium on Planetary Sciences
*Shotaro Sakai1,2, Rina Noguchi3, Shunta Kimura4, Mizuho Koike5, Kei Masunaga6, Arihiro Kamada1, Yasunori Nagata4, Hiromu Nakagawa1, Tomohiro Usui4 (1.Department of Geophysics, Graduate School of Science, Tohoku University, 2.Planetary Plasma and Atmospheric Research Center, Graduate School of Science, Tohoku University, 3.Faculty of Science, Niigata University, 4.Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency, 5.Graduate School of Advanced Science and Engineering, Hiroshima University, 6.Institute of Arts and Sciences, Yamagata University)
[PPS09-P09]Ion irradiation of Phobos simulants
*Antonin Wargnier1,2, Audrey Moingeon3, Eric Quirico3, Thomas Gautier2,1, Pierre Beck3, Giovanni Poggiali4, Olivier Poch3, Vanesa Tobon-Valencia3, Emma Caminiti3, Sonia Fornasier1, Alain Doressoundiram1 (1.LIRA - Paris Observatory, France, 2.LATMOS, France, 3.IPAG, France, 4.INAF - Arcetri Observatory, Italy)
[PPS09-P10]Reconstructing Ancient Martian Hydrology: Insights from Delta Morphology and Tank Experiments
*Ren Kito1, Hitoshi Hasegawa2, Tetsuji Muto3, Trishit Ruj1, Goro Komatsu4 (1. Institute for Planetary Materials, Okayama University, 2. Faculty of Science and Technology, Kochi University, 3. Fuculty of Environmental Science, Nagasaki University, 4. Università d’Annunzio)
[PPS09-P11]Protolith Composition and Fluid Transport Controls on Ancient Martian Carbonate Formation: Insights from Thermochemical Modeling
*Chang-Chin Wang1, Tomohiro Usui1,2, Mohit Melwani Daswani3 (1.The University of Tokyo, 2.ISAS/JAXA, 3.Jet Propulsion Laboratory, California Institute of Technology)
[PPS09-P12]Extensions of the Mars Web-GIS ‘Red Ace’: Improving Usability and Functionality for High-Volume Processing
*Tsuji Tatsuya1, Masanobu Usui2, Hironori Fukuchi3, Yuya Matsubara5, Hiroshi Sakai4, Yohei Hayashi6, Yoshiko Ogawa1 (1.The university of Aizu, 2.The university of Aizu(Now LaKeel Inc.), 3.The University of Aizu (Now Aizu Medical Center), 4.The University of Aizu (Now MEDLEY, INC. ), 5.The University of Aizu (Now NTTDocomo Inc.), 6.National Astronomical Observatory of Japan)
[PPS09-P13]Integration and Optimization of Spectral Data Analysis Tools to Understand the Water Environment of Mars
*Yuya Wakatsuki1, Yoshiko Ogawa1, Makiko Ohtake1, Rage Uday Kiran1 (1.The University of Aizu)
[PPS09-P14]Seasonal Variations of Hydrated Sulfates in Martian Polar Dunes: Insights from White Sands Analog Studies
*Takumu Chijiiwa1, Hitoshi Hasegawa2, Trishit Ruj1, Goro Komatsu4, Hiroki Shozaki5, Sakiko Kikuchi6, Aki Sakuma3, Tomohiro Usui7 (1.Natural Science and Technology, Life, Graduate School of Environment, Okayama Univ., 2.Kochi Univ., 3.Tokyo Univ., 4.Universiá d'Annunzio, 5.ELSI, Institute of Science Tokyo, 6.JAMSTEC, 7.JAXA)
[PPS09-P15]Transformation of Ferrihydrite to Crystalline Fe Oxides in Salt Solutions: Implications for Effects of Water Chemistry on the Rare Detection of Goethite on Mars
*So Fukaya1, Keisuke Fukushi2, Yoshio Takahashi3 (1.Graduate School of Natural Science, Kanazawa University, 2.Institute of Natural and Environmental Technology, Kanazawa University, 3.Department of Earth and Planetary Science, The University of Tokyo)
[PPS09-P16]Exploring Potential Aquatic Environments in Mid-to-High Latitudes on Mars Based on Evaporative Landforms in the US
*Takaki Sako1, Hitoshi Hasegawa2, Trishit Ruj1, Goro Komatsu3, Tomohiro Usui4, Noritaka Endo5, Uu Kojima2, Takumu Chijiiwa1 (1.Okayama University, 2.Kochi University, 3.Università d’Annunzio, 4.JAXA, 5.Kanazawa University)
[PPS09-P17]Simulation of the aerosol formation from meteoric metals in the Martian mesosphere
*Reiichi Sato1, Takeshi Kuroda1, Yuki Nakamura2, Shungo Koyama1, Hiroki Karyu1, John M.C. Plane3, Naoki Terada1 (1.Tohoku university, 2.University of Tokyo, 3.Leeds university)
[PPS09-P18]Characteristics of dust plumes detected during Martian regional dust storms by MRO-MCS observations
*Moe Oka1, Katsuyuki Noguchi1, Armin Kleinboehl2, Hiroo Hayashi3 (1.Nara Women's University, 2.Jet Propulsion Laboratory, California Institute of Technology, 3.RIKEN)
[PPS09-P19]Derivation of dust optical depth from images taken by a Mars rover using radiative transfer model and deep learning method
*Itsuki Kashimura1, Takeshi Kuroda1, Tomohiro Sato2, Hironobu Iwabuchi1, Naoki Terada1 (1.Tohoku University , 2.National Institute of Information and Communications Technology (NICT))