Upper mantle structure of Mars from InSight seismic data | Zendy

Amir Khan | Zendy; Savas Ceylan | Zendy; Martin van Driel | Zendy; Domenico Giardini | Zendy; Philippe Logné | Zendy; Henri Samuel | Zendy; N. C. Schmerr | Zendy; Simon C. Stähler | Zendy; Cecilia Durán | Zendy; Quancheng Huang | Zendy; Doyeon Kim | Zendy; A. Broquet | Zendy; Constantinos Charalambous | Zendy; John Clinton | Zendy; Paul M. Davis | Zendy; M. Drilleau | Zendy; Foivos Karakostas | Zendy; V. Lekić | Zendy; S. M. McLennan | Zendy; Ross Maguire | Zendy; Chloé Michaut | Zendy; M. P. Panning | Zendy; W. T. Pike | Zendy; Baptiste Pinot | Zendy; Matthieu Plasman | Zendy; JohnRobert Scholz | Zendy; Rudolf WidmerSchnidrig | Zendy; Tilman Spohn | Zendy; S. E. Smrekar | Zendy; W. B. Banerdt | Zendy

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Upper mantle structure of Mars from InSight seismic data

Author(s) -

Amir Khan,

Savas Ceylan,

Martin van Driel,

Domenico Giardini,

Philippe Logné,

Henri Samuel,

N. C. Schmerr,

Simon C. Stähler,

Cecilia Durán,

Quancheng Huang,

Doyeon Kim,

A. Broquet,

Constantinos Charalambous,

John Clinton,

Paul M. Davis,

M. Drilleau,

Foivos Karakostas,

V. Lekić,

S. M. McLennan,

Ross Maguire,

Chloé Michaut,

M. P. Panning,

W. T. Pike,

Baptiste Pinot,

Matthieu Plasman,

JohnRobert Scholz,

Rudolf WidmerSchnidrig,

Tilman Spohn,

S. E. Smrekar,

W. B. Banerdt

Publication year - 2021

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.abf2966

Subject(s) - mars exploration program , geology , lithosphere , mantle (geology) , crust , seismometer , planet , geophysics , astrobiology , seismology , tectonics , astronomy , physics

Single seismometer structure Because of the lack of direct seismic observations, the interior structure of Mars has been a mystery. Khanet al. , Knapmeyer-Endrunet al. , and Stähleret al. used recently detected marsquakes from the seismometer deployed during the InSight mission to map the interior of Mars (see the Perspective by Cottaar and Koelemeijer). Mars likely has a 24- to 72-kilometer-thick crust with a very deep lithosphere close to 500 kilometers. Similar to the Earth, a low-velocity layer probably exists beneath the lithosphere. The crust of Mars is likely highly enriched in radioactive elements that help to heat this layer at the expense of the interior. The core of Mars is liquid and large, ∼1830 kilometers, which means that the mantle has only one rocky layer rather than two like the Earth has. These results provide a preliminary structure of Mars that helps to constrain the different theories explaining the chemistry and internal dynamics of the planet.Science , abf2966, abf8966, abi7730, this issue p.434 , p.438 , p.443 see also abj8914, p.388

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