Search

Your search keyword '"Ashwin R. Vasavada"' showing total 7 results
Start Over Author "Ashwin R. Vasavada" Publisher nasa center for aerospace information (casi)
7 results on '"Ashwin R. Vasavada"'

1. The Curiosity Rover’s Exploration of Glen Torridon, Gale Crater, Mars: An Overview of the Campaign and Scientific Results

Author

Kristen A Bennett, Valerie K Fox, Alex Bryk, William Dietrich, Christopher Fedo, Lauren Edgar, Michael T Thorpe, Amy J Williams, Gregory M Wong, Erwin Dehouck, Amy McAdam, Brad Sutter, Maëva Millan, Steven G Banham, Candice C Bedford, Thomas Bristow, Abigail Fraeman, Ashwin R Vasavada, John Grotzinger, Lucy Thompson, Catherine O’Connell-Cooper, Patrick Gasda, Amanda Rudolph, Robert Sullivan, Allan Treiman, Jennifer Eigenbrode, and Gwénaël Caravaca

Subjects
Lunar and Planetary Science and Exploration
Abstract

The Mars Science Laboratory rover, Curiosity, explored the clay mineral-bearing Glen Torridon region for 1 Martian year between January 2019 and January 2021, including a short campaign onto the Greenheugh pediment. The Glen Torridon campaign sought to characterize the geology of the area, seek evidence of habitable environments, and document the onset of a potentially global climatic transition during the Hesperian era. Curiosity roved 5 km in total throughout Glen Torridon, from the Vera Rubin ridge to the northern margin of the Greenheugh pediment. Curiosity acquired samples from 11 drill holes during this campaign and conducted the first Martian thermochemolytic-based organics detection experiment with the Sample Analysis at Mars instrument suite. The lowest elevations within Glen Torridon represent a continuation of lacustrine Murray formation deposits, but overlying widespread cross bedded sandstones indicate an interval of more energetic fluvial environments and prompted the definition of a new stratigraphic formation in the Mount Sharp group called the Carolyn Shoemaker formation. Glen Torridon hosts abundant phyllosilicates yet remains compositionally and mineralogically comparable to the rest of the Mount Sharp group. Glen Torridon samples have a great diversity and abundance of sulfur-bearing organic molecules, which are consistent with the presence of ancient refractory organic matter. The Glen Torridon region experienced heterogeneous diagenesis, with the most striking alteration occurring just below the Siccar Point unconformity at the Greenheugh pediment. Results from the pediment campaign show that the capping sandstone formed within the Stimson Hesperian aeolian sand sea that experienced seasonal variations in wind direction.

Published
2022
Full Text
View/download PDF

6. Mineralogy, provenance, and diagenesis of a potassic basaltic sandstone on Mars: CheMin X‐ray diffraction of the Windjana sample (Kimberley area, Gale Crater)

Author

Allan H. Treiman, David L. Bish, David T. Vaniman, Steve J. Chipera, David F. Blake, Doug W. Ming, Richard V. Morris, Thomas F. Bristow, Shaunna M. Morrison, Michael B. Baker, Elizabeth B. Rampe, Robert T. Downs, Justin Filiberto, Allen F. Glazner, Ralf Gellert, Lucy M. Thompson, Mariek E. Schmidt, Laetitia Le Deit, Roger C. Wiens, Amy C. McAdam, Cherie N. Achilles, Kenneth S. Edgett, Jack D. Farmer, Kim V. Fendrich, John P. Grotzinger, Sanjeev Gupta, John Michael Morookian, Megan E. Newcombe, Melissa S. Rice, John G. Spray, Edward M. Stolper, Dawn Y. Sumner, Ashwin R. Vasavada, and Albert S. Yen

Published
2016
Full Text
View/download PDF

7. Observational Evidence of a Suppressed Planetary Boundary Layer in Northern Gale Crater, Mars as Seen by the Navcam Instrument Onboard the Mars Science Laboratory Rover

Author

John E Moores, Mark T Lemmon, Henrik Kahanpaa, Scot C R Rafkin, Raymond Francis, Jorge Pla-garcia, Keri Bean, Robert Haberle, Claire Newman, Michael Mischna, Ashwin R Vasavada, Manuel De La Torre Juarez, Nilton Renno, Jim Bell, Fred Calef, Bruce Cantor, Timothy H Mcconnochie, Ari-Matti Harri, Maria Genzer, Michael H Wong, Smith, Michael D, F Javier Martin-Torres, Maria-Paz Zorzano, Osku Kemppinen, and Emily McCullough

Subjects
Lunar And Planetary Science And Exploration
Abstract

The Navigation Cameras (Navcam) of the Mars Science Laboratory rover, Curiosity, have been used to examine two aspects of the planetary boundary layer: vertical dust distribution and dust devil frequency. The vertical distribution of dust may be obtained by using observations of the distant crater rim to derive a line-of-sight optical depth within Gale Crater and comparing this optical depth to column optical depths obtained using Mastcam observations of the solar disc. The line of sight method consistently produces lower extinctions within the crater compared to the bulk atmosphere. This suggests a relatively stable atmosphere in which dust may settle out leaving the air within the crater clearer than air above and explains the correlation in observed column opacity between the floor of Gale Crater and the higher elevation Meridiani Planum. In the case of dust devils, despite an extensive campaign only one optically thick vortex (tau = 1.5 +/- 0.5 10(exp -3)) was observed compared to 149 pressure events greater than 0.5 Pa observed in REMS pressure data. Correcting for temporal coverage by REMS and geographic coverage by Navcam still suggests 104 vortices should have been viewable, suggesting that most vortices are dustless. Additionally, the most intense pressure excursions observed on other landing sites (pressure drop greater than 2.5 Pa) are lacking from the observations by the REMS instrument. Taken together, these observations are consistent with pre-landing circulation modeling of the crater showing a suppressed, shallow boundary layer. They are further consistent with geological observations of dust that suggests the northern portion of the crater is a sink for dust in the current era.

Published
2014
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results