Add to ORKGMost seismological models for the interior of Mars lack an upper mantle low velocity zone. However, there is expected to be a large thermal gradient across the stagnant conductive lid (lithosphere) of Mars. This gradient should tend to decrease elastic wave velocities with increasing depth, with this effect dominating the opposing tendency caused by increasing pressure with depth because Mars has low gravity. An upper mantle lithosphere with a low velocity zone (LVZ) beneath a thin high velocity “seismic lid” is thus predicted. The upcoming NASA InSight mission includes a three-component seismometer, which should provide the first opportunity to directly detect any lithospheric LVZ in Mars. Seismic wavefields expected for Mars mantle veloci...
In addition to its intrinsic interest, Mars is particularly well-suited for studying the full range ...
The InSight mission to Mars is currently monitoring the seismic activity of the planet. Interpretati...
Mars’s seismic activity and noise have been monitored since January 2019 by the seismometer of the I...
Most seismological models for the interior of Mars lack an upper mantle low velocity zone. However, ...
We use a large data set of 3D thermal evolution models to predict the distribution of present‐day se...
We invert Rayleigh wave ellipticity curves extracted from ambient seismic vibrations at the InSight ...
NASA’s InSight mission was the first mission to install a geophysical observatory on Mars, including...
For the first time, from early 2019 to the end of 2022, Mars' shallow and deep interiors have been e...
The InSight (Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) mission ...
Surface waves had not been observed on any marsquake records during the first 3 years of seismic mon...
At first glance the single tectonic plate setting of Mars implies that most of its deformation is ch...
Planetary cores are key to understanding the conditions of planetary formation, composition and evol...
We present inversions for the structure of Mars using the first Martian seismic record collected by ...
After more than 4 Earth years of operation on the martian surface monitoring the planet’s ground vib...
The InSight (Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) mission ...
In addition to its intrinsic interest, Mars is particularly well-suited for studying the full range ...
The InSight mission to Mars is currently monitoring the seismic activity of the planet. Interpretati...
Mars’s seismic activity and noise have been monitored since January 2019 by the seismometer of the I...
Most seismological models for the interior of Mars lack an upper mantle low velocity zone. However, ...
We use a large data set of 3D thermal evolution models to predict the distribution of present‐day se...
We invert Rayleigh wave ellipticity curves extracted from ambient seismic vibrations at the InSight ...
NASA’s InSight mission was the first mission to install a geophysical observatory on Mars, including...
For the first time, from early 2019 to the end of 2022, Mars' shallow and deep interiors have been e...
The InSight (Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) mission ...
Surface waves had not been observed on any marsquake records during the first 3 years of seismic mon...
At first glance the single tectonic plate setting of Mars implies that most of its deformation is ch...
Planetary cores are key to understanding the conditions of planetary formation, composition and evol...
We present inversions for the structure of Mars using the first Martian seismic record collected by ...
After more than 4 Earth years of operation on the martian surface monitoring the planet’s ground vib...
The InSight (Interior Exploration using Seismic Investigations, Geodesy and Heat Transport) mission ...
In addition to its intrinsic interest, Mars is particularly well-suited for studying the full range ...
The InSight mission to Mars is currently monitoring the seismic activity of the planet. Interpretati...
Mars’s seismic activity and noise have been monitored since January 2019 by the seismometer of the I...