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地球与行星物理学术报告通知-Philippe Lognonné

发布时间:2024年06月14日 21:48    点击率:10

报告地点教学行政楼 706 会议室

报告时间:2024-06-18 从 10:00 到 11:30

报告人:Philippe Lognonné(Université Paris Cité, Institut de physique du globe de Paris, CNRS, Paris, France)

报告人简介:

Philippe Lognonné,巴黎西岱大学的地球物理学教授,巴黎地球物理研究所的行星地震学家。他的研究包括长周期地震学,行星与其大气层和电离层的地震耦合,地震海啸减灾和行星物理学和地震学。Philippe Lognonné自1996年创立了行星与空间科学团队以来,一直从事相关研究。他是NASA InSight(洞察号)任务火星地震仪(SEIS)的首席、美国喷气推进实验室(JPL)的月球背面地震套件(FSS)任务的联合首席、中国嫦娥7号月震探测国际合作任务首席。Philippe Lognonné教授曾获得美国地球物理学会会士(2019年)、贝诺·古登堡奖(2022年)、法国科学院的天体物理与空间科学奖(2020年)和法国天文学国际航天奖(2021年)等荣誉。

报告题目:SEIS on Mars: Unveiling the Martian Interior and Advancing Planetary Seismology toward the Moon

报告内容简介

SEIS, the French lead international seismometer of NASA’s InSight mission, has operated on Mars until mid-December 2022.  Thanks to a careful robotic installation and wind shielding the Very-Broad-Band sensors of SEIS have reached ultra-low noise (down to 2x10-10 ms-2 Hz-1/2 between 0.1-1Hz) during the first half of night. Magnitude detection threshold are M<3 in the InSight hemisphere and M~4 in the antipodal one. Noise was much larger during the rest of each day, exceeding the noise recorded on the Moon but still 10 times less than the quietest sites on Earth in the 0.1-1H bandwidth.

1319 events were detected including a Mw=4.7 marsquake, which excited surface waves and likely normal modes and 90 teleseismic events down to Mw=2.5 and for the 40 largest one with determined distances. About 8 impacts were also confirmed by orbital crater imaging, two with very large craters. About half of the events are located near Cerberus Fossae, which suggest either recent or possibly on-going volcanic seismo-tectonics.

With these seismic events, SEIS has been able to provide the first interior seismic models of the planet, from the 40 km thick crust beneath InSight down to the core. These models revealed the stratigraphy of the crust, including through surface waves anisotropy, the structure and thickness of the thermal lithosphere and the presence of a molten silicate layer at the bottom of the core, beneath a lower partially molten layer. Together with the seismic models of the Moon and Earth, obtained from the Apollo data and the international seismic networks respectively, comparison of these three terrestrial bodies is not possible, for both interior and seismic properties view.

In conclusion, SEIS not only performed the first seismic discovery of the martian interior, but contributed also in some way to the rebirth of planetary seismology. Planetary seismology will indeed continue on the Moon, not only with the  Chang’he 7 & 8 missions and the Artemis-3  LEM experiment, but also with one of the spare unit of the SEIS-VBB sensors, which will be deployed in 2026 by the JPL/CNES/IPGP FarSide Seismic Suite experiment!

These researches have been supported by the French Space Agency (CNES) and MAGIS Project of French National Research Agency (ANR-19-CE31-0008)


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