*Renee C Weber1, Clive Neal2, Bruce Banerdt3, Sharon Kedar3, Nicholas Schmerr4, Mark Panning3, Philippe Lognonne5, Taichi Kawamura5, Ceri Nunn3, Angela Marusiak4, Deanna Phillips9, Yosio Nakamura7, Caroline Beghein6, Raphael Garcia8 (1.NASA Marshall Space Flight Center, 2.Universtiy of Notre Dame, 3.NASA JPL, 4.University of Maryland, 5.IPGP Paris, 6.University of California, Los Angeles, 7.University of Texas, Austin, 8.ISAE SUPAERO, 9.University of Alabama, Huntsville)
Session information
[E] Oral
P (Space and Planetary Sciences ) » P-PS Planetary Sciences
[P-PS05] Planetary Seismic Exploration-From InSight and Apollo to Future Missions-
convener:Taichi Kawamura(Institut de Physique du Globe de Paris), Takeshi Tsuji(Department of Earth Resources Engineering, Kyushu University), Ralph Lorenz(Johns Hopkins University Applied Physics Laboratory), William Bruce Banerdt(Jet Propulsion Laboratory)
Given that seismic exploration is one of the most successful approach to study the internal structure of planetary bodies, it has been proposed to various planetary missions. Starting from Passive Seismic Experiment on Apollo missions, various seismic experiments were proposed over the next 50 years. Recently, several such proposals have been approved and thus we are entering a new active era of planetary seismology. In early 2019, the NASA InSight Lander successfully deployed the first seismometer on the surface of Mars and detected the first Marsquakes. In addition, recent global interest in lunar exploration has rekindled interest in a new seismic network on the Moon. In-situ resource utilization is being intensively discussed and seismic exploration has been investigated as an approach to search for subsurface water/ice. Finally, the Dragonfly mission was selected as NASA's next New Frontiers mission and a set of short period seismometers is being considered for its payload. With such a diversity of on-going and future missions, the next decade should see significant advances planetary seismology. The aim of this session will be to discuss the latest planetary seismology discoveries and possible future exploration and developments in this field. In terms of recent discoveries, the focus will be on analyses of InSight seismic data from Mars as well as results from other missions. The session will also include discussion on future missions, both selected and proposed. These include the active seismic experiment on the Japanese Lunar Resource Prospector mission and the seismic experiment on NASA's Dragonfly. Though planetary seismology has a long history dating back to the Apollo era, the associated research community is relatively immature due to the nearly 50-years gap in new data. We propose this session to provide opportunity to bring together scientist working on related topics and encourage discussion and collaboration for future development of this theme.
*Tanguy Nebut1,2,3, Philippe Lognonne1,3, Sébastien de Raucourt1,3, Taichi Kawamura1,3, Gabriel Pont4, Taoufik Gabsi1,2,3, Sylvain Tillier1,2,3, Olivier Robert1,2,3, Michel Parise1,2,3 (1.Institut de Physique du Globe de Paris, 2.CNRS, 3.Université de Paris, 4.CNES)
Cancelled
*Takeshi Tsuji1, Yuichiro Nagata1, Junji Kinoshita1, Tatsunori Ikeda1, Taichi Kawamura3, Yoshiaki Ishihara7, Kazunori Ogawa2, Taizo Kobayashi4, Takao Maeda6, Akito Araya5, Hideaki Miyamoto5, Satoshi Tanaka2, Philippe Lognonné3 (1.Kyushu Univ., 2.JAXA, 3.IPGP, 4.Ritsumeikan Univ., 5.Tokyo Univ., 6.Chuo Univ., 7.NIES)
*Gaku Nishiyama1, Taichi Kawamura2, Noriyuki Namiki3, Benjamin Fernando4, Kuangdai Leng4, Takanao Saiki5, Hiroshi Imamura5, Yasuhiko Takagi6, Kei Shirai5, Masahiko Hayakawa5, Chisato Okamoto7, Hirotaka Sawada5, Yuichi Tsuda5, Kazunori Ogawa5, Masahiko Arakawa7 (1.University of Tokyo, 2.Institut de Physique du Globe de Paris, 3. RISE Project, National Astronomical Observatory of Japan, 4.University of Oxford, 5.Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency, 6.Aichi Toho University, 7.Kobe University)
Cancelled
*Ralph Lorenz1, Hiroaki Siraisi2, Mark Panning3, Ryuhei Yamada 4 (1.Johns Hopkins University Applied Physics Laboratory, 2.ISAS/JAXA, 3.JPL, 4.U. Aizu)