2025-09-05 中国科学院(CAS)
<関連情報>
- https://english.cas.cn/newsroom/cas_media/202509/t20250905_1054053.shtml
- https://www.nature.com/articles/s41586-025-09361-9
火星における600kmの固体内核の地震学的検出 Seismic detection of a 600-km solid inner core in Mars
Huixing Bi,Daoyuan Sun,Ningyu Sun,Zhu Mao,Mingwei Dai & Douglas Hemingway
Nature Published:03 September 2025
DOI:https://doi.org/10.1038/s41586-025-09361-9
Abstract
For rocky planets, the presence of a solid inner core has notable implications on the composition and thermal evolution of the core and on the magnetic history of the planet1,2,3. On Mars, geophysical observations have confirmed that the core is at least partially liquid4,5,6,7, but it is unknown whether any part of the core is solid. Here we present an analysis of seismic data acquired by the InSight mission, demonstrating that Mars has a solid inner core. We identify two seismic phases, the deep core-transiting phase, PKKP, and the inner core boundary reflecting phase, PKiKP, indicative of the inner core. Our inversions constrain the radius of the Martian inner core to about 613 ± 67 km, with a compressional velocity jump of around 30% across the inner core boundary, supported by additional inner-core-related seismic phases. These properties imply a concentration of distinct light elements in the inner core, segregated from the outer core through core crystallization. This finding provides an anchor point for understanding the thermal and chemical state of Mars. Moreover, the relationship between inner core formation and the Martian magnetic field evolution could provide insights into dynamo generation across planetary bodies.
