Abstract
Orbital and surface observations can shed light on the internal structure of Mars. NASA’s InSight mission allows mapping the shallow subsurface of Elysium Planitia using seismic data. In this work, we apply a classical seismological technique of inverting Rayleigh wave ellipticity curves extracted from ambient seismic vibrations to resolve, for the first time on Mars, the shallow subsurface to around 200 m depth. While our seismic velocity model is largely consistent with the expected layered subsurface consisting of a thin regolith layer above stacks of lava flows, we find a seismic low-velocity zone at about 30 to 75 m depth that we interpret as a sedimentary layer sandwiched somewhere within the underlying Hesperian and Amazonian aged basalt layers. A prominent amplitude peak observed in the seismic data at 2.4 Hz is interpreted as an Airy phase related to surface wave energy trapped in this local low-velocity channel.
Highlights
Orbital and surface observations can shed light on the internal structure of Mars
We carry out a Rayleigh wave ellipticity analysis focusing on data recorded during a representative quiet-period time window of 7 h length in the night from sol 422 to 423 (Sol 18:08:21 to Sol 00:57:07 local mean solar time (LMST), corresponding to 3 February 2020, 14:15:00 to 21:15:00 UTC)
Surface waves generated by sources like the interaction of wind with topography are ubiquitous on Earth, and are expected to be present on Mars
Summary
NASA’s InSight mission allows mapping the shallow subsurface of Elysium Planitia using seismic data. We apply a classical seismological technique of inverting Rayleigh wave ellipticity curves extracted from ambient seismic vibrations to resolve, for the first time on Mars, the shallow subsurface to around 200 m depth. A prominent amplitude peak observed in the seismic data at 2.4 Hz is interpreted as an Airy phase related to surface wave energy trapped in this local low-velocity channel. NASA’s InSight (Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) mission is the first to target the subsurface using seismic methods[1]
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