Joint Inversion of Receiver Functions and Apparent Incidence Angles to 
Determine the Crustal Structure of Mars

Joshi, Rakshit; Joshi, R.; Knapmeyer-Endrun, Brigitte; Mosegaard, Klaus; Wieczorek, M. A.; Igel, Heiner; Christensen, Ulrich R.; Lognonné, Philippe

doi:10.1029/2022GL100469

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Joint Inversion of Receiver Functions and Apparent Incidence Angles to Determine the Crustal Structure of Mars

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Joshi, Rakshit
Planetary Science Department, Max Planck Institute for Solar System Research, Max Planck Society;

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Joshi, R.
IMPRS for Solar System Science at the University of Göttingen, Max Planck Institute for Solar System Research, Max Planck Society;

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Knapmeyer-Endrun, Brigitte
Department Planets and Comets, Max Planck Institute for Solar System Research, Max Planck Society;

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Christensen, Ulrich R.
Planetary Science Department, Max Planck Institute for Solar System Research, Max Planck Society;

Externe Ressourcen

https://ui.adsabs.harvard.edu/abs/2023GeoRL..5000469J
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Zitation

Joshi, R., Joshi, R., Knapmeyer-Endrun, B., Mosegaard, K., Wieczorek, M. A., Igel, H., et al. (2023). Joint Inversion of Receiver Functions and Apparent Incidence Angles to Determine the Crustal Structure of Mars. Geophysical Research Letters, 50, e2022GL100469. doi:10.1029/2022GL100469.

Zitierlink: https://hdl.handle.net/21.11116/0000-000C-AAF9-C

Zusammenfassung

Recent estimates of the crustal thickness of Mars show a bimodal result of either ∼20 or ∼40 km beneath the InSight lander. We propose an approach based on random matrix theory applied to receiver functions (RFs) to further constrain the subsurface structure. Assuming a spiked covariance model for our data, we first use the phase transition properties of the singular value spectrum of random matrices to detect coherent arrivals in the waveforms. Examples from terrestrial data show how the method works in different scenarios. We identify three previously undetected converted arrivals in the InSight data, including the first multiple from a deeper third interface. We then use this information to jointly invert RFs with the absolute S-wave velocity information in the polarization of body waves. Results show a crustal thickness of 43 ± 5 km beneath the lander with two mid-crustal interfaces at depths of 8 ± 1 and 21 ± 3 km.