Mars Seismology
P. Lognonné,W.B. Banerdt,J. Robert Clinton,R. F. García,Domenico Giardini,B. Knapmeyer-Endrun,M. Panning,W.T. Pike +7 more
TL;DR: For the first time, from early 2019 to the end of 2022, Mars' shallow and deep interiors have been explored by seismology with the InSight mission as discussed by the authors .
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Abstract: For the first time, from early 2019 to the end of 2022, Mars’ shallow and deep interiors have been explored by seismology with the InSight mission. Thanks to the performances of its seismometers and the quality of their robotic installation on the ground, 1,319 seismic events have been detected, including about 90 marsquakes at teleseismic distances, with Mw from 2.5 to 4.7 and at least 6 impacts, the largest ones with craters larger than 130 m. A large fraction of these marsquakes occur in Cerberus Fossae, demonstrating active regional tectonics. Records of pressure-induced seismic noise and signals from the penetration of a heat flow probe have provided subsurface models below the lander. Deeper direct and secondary body wave phase travel time, receiver function, and surface wave analysis have provided the first interior models of Mars, including crustal thickness and crustal layering, mantle structure, thermal lithospheric thickness, and core radius and state. ▪ With InSight's SEIS (Seismic Experiment for Interior Structure of Mars) experiment and for the first time in planetary exploration, Mars’ internal structure and seismicity are constrained. ▪ More than 1,300 seismic events and seismic noise records enable the first comparative seismology studies together with Earth and lunar seismic data. ▪ Inversion of seismic travel times and waveforms provided the first interior model of another terrestrial planet, down to the core. ▪ Several impacts were also seismically recorded with their craters imaged from orbit, providing the first data on impact dynamic on Mars. Expected final online publication date for the Annual Review of Earth and Planetary Sciences, Volume 51 is May 2023. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.
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Citations
Liquid water in the Martian mid-crust
Vashan Wright,Matthias Morzfeld,Michael Manga +2 more
TL;DR: Researchers use rock physics models and Bayesian inversion to identify liquid water in the Martian mid-crust, finding a mid-crust composed of fractured igneous rocks saturated with water best explains seismic and gravity data, with implications for Mars' water cycle and life search.
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Focal Mechanism Determination of Event S1222a and Implications for Tectonics Near the Dichotomy Boundary in Southern Elysium Planitia, Mars
Ross Maguire,Vedran Lekic,D. Kim,Nicholas Schmerr,J. Li,Caroline Beghein,Q. Huang,J. C. E. Irving,Foivos Karakostas,P. H. Lognonné,Simon Stähler,W. Bruce Banerdt +11 more
- 21 Aug 2023
TL;DR: The largest marsquake, S1222a, was a reverse faulting event with a source depth of 22 km, indicating active compressional tectonics near the dichotomy boundary on Mars, likely due to thermal contraction from planetary cooling.
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Detection of Mars Normal Modes From S1222a Event and Seismic Hum
TL;DR: In this paper , the authors presented the first detection of normal modes on Mars using the vertical records from InSight's broad-band seismometer following the Marsquake that occurred on sol 1222.
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Using Wind Dispersion Effects During the InSight Tether Burial Activities to Better Constrain the Regolith Grain Size Distribution
TL;DR: In an attempt to improve the quality of the seismic signals provided by the InSight mission (Interior Exploration using Seismic Investigations, Geodesy, and Heat Transport) on Mars, part of the tether linking the seismometer to the lander was buried by some regolith using the scoop of the articulated robotic arm as mentioned in this paper .
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Applications of Time‐Frequency Domain Polarization Filtering to InSight Seismic Data
Nienke Brinkman,David Sollberger,Cedric Schmelzbach,Simon Stähler,J. Robertsson +4 more
TL;DR: Researchers applied time-frequency domain polarization filtering to InSight seismic data to suppress noise and enhance signal-to-noise ratio, improving seismological analysis and constraining source mechanisms of marsquakes and instrument-related glitches.
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TL;DR: For example, the first ten months of the InSight lander on Mars revealed a planet that is seismically active and provided information about the interior, surface and atmospheric workings of Mars as mentioned in this paper.
SEIS: Insight’s Seismic Experiment for Internal Structure of Mars
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TL;DR: The science goals of the experiment and the rationale used to define its requirements are described, and the hardware, from the sensors to the deployment system and associated performance, including transfer functions of the seismic sensors and temperature sensors are described.
The Borealis basin and the origin of the martian crustal dichotomy
TL;DR: It is suggested that the elliptical nature of the crustal dichotomy is most simply explained by a giant impact, representing the largest such structure thus far identified in the Solar System.
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