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Showing 1–7 of 7 results

Advanced filters: Author: Suzanne E. Smrekar Clear advanced filters

Author Correction: Earth-like lithospheric thickness and heat flow on Venus consistent with active rifting

Suzanne E. Smrekar
Colby Ostberg
Joseph G. O’Rourke
Amendments and Corrections28 Nov 2024
Nature Geoscience

Volume: 18, P: 105
Earth-like lithospheric thickness and heat flow on Venus consistent with active rifting

An analysis of elastic lithospheric thickness suggests most coronae on Venus form on thin lithosphere with heat flow similar to that of rift zones on Earth, supporting a planet with active rifting and a squishy-lid convective regime.

Suzanne E. Smrekar
Colby Ostberg
Joseph G. O’Rourke
Research14 Nov 2022
Nature Geoscience

Volume: 16, P: 13-18
Ishtar Terra highlands on Venus raised by craton-like formation mechanisms

Venusian highland terrains such as Ishtar Terra formed from melting beneath thinned lithosphere that created a stiff mantle root in a mechanism akin to craton formation on the early Earth, according to three-dimensional computational simulations.

Fabio A. Capitanio
Madeleine Kerr
Suzanne E. Smrekar
Research02 Aug 2024
Nature Geoscience

Volume: 17, P: 740-746
Spin state and deep interior structure of Mars from InSight radio tracking

Analysis of radio science data from the NASA InSight Mars lander reveals details of the rotation of the planet, which have been used to determine fundamental information about its core, mantle and atmosphere.

Sébastien Le Maistre
Attilio Rivoldini
W. Bruce Banerdt
Research14 Jun 2023
Nature

Volume: 619, P: 733-737
Crustal and time-varying magnetic fields at the InSight landing site on Mars

The magnetic field measured by the InSight lander on Mars varies daily and is ten times stronger than expected. The field is inferred to originate from components of basement rocks magnetized by an ancient dynamo of Earth-like strength.

Catherine L. Johnson
Anna Mittelholz
William B. Banerdt
Research24 Feb 2020
Nature Geoscience

Volume: 13, P: 199-204
The atmosphere of Mars as observed by InSight

The InSight lander has expanded our knowledge of the atmosphere of Mars by observing various phenomena, including airglow, bores, infrasound and Earth-like turbulence.

Don Banfield
Aymeric Spiga
W. Bruce Banerdt
Research24 Feb 2020
Nature Geoscience

Volume: 13, P: 190-198
Initial results from the InSight mission on Mars

Geophysical and meteorological measurements by NASA’s InSight lander on Mars reveal a planet that is seismically active and provide information about the interior, surface and atmospheric workings of Mars.

W. Bruce Banerdt
Suzanne E. Smrekar
Mark Wieczorek
Reviews24 Feb 2020
Nature Geoscience

Volume: 13, P: 183-189