C. H. Okubo scite author profile

The Colour and Stereo Surface Imaging System (CaSSIS) is the main imaging system onboard the European Space Agency’s ExoMars Trace Gas Orbiter (TGO) which was launched on 14 March 2016. CaSSIS is intended to acquire moderately high resolution (4.6 m/pixel) targeted images of Mars at a rate of 10–20 images per day from a roughly\ud circular orbit 400 km above the surface. Each image can be acquired in up to four colours and stereo capability is foreseen by the use of a novel rotation mechanism. A typical product from one image acquisition will be a 9.5 km×∼45 km swath in full colour and stereo in one over-flight of the target thereby reducing atmospheric influences inherent in stereo and colour products from previous high resolution imagers. This paper describes the instrument including several novel technical solutions required to achieve the scientific requirement

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Relative age of interior layered deposits in southwest Candor Chasma based on high‐resolution structural mapping

Okubo¹,

Lewis²,

McEwen³

et al. 2008

J. Geophys. Res.

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High‐resolution topography generated from stereo HiRISE (High‐Resolution Imaging Science Experiment) imagery reveals the meter‐scale structure of interior layered deposits (ILD) in southwest Candor Chasma. This study seeks to determine the age of the local ILD relative to any normal faults that can be attributed to chasma formation. The study area is located near the contact of these ILD and the wall rock and is in an area where chasma‐forming normal faults have been proposed. We find that while normal faults are found in the study area, these faults are not sufficiently large nor appropriately located or oriented to accommodate the roughly northeast‐southwest extension that is required for normal faults that can be attributed to chasma formation. Additionally, bedding exposed in the local ILD generally dips toward the center of Candor Chasma, consistent with sediment deposition in a preexisting basin. Further, pit craters of Tithonia Catena, presumed to predate or be contemporaneous with the formation of west Candor Chasma, do not cut into the ILD within the study area. These independent lines of evidence support a postchasma age for the ILD exposed within the study area. Chasma‐related normal faults may exist within these ILD at depth but are not exposed at the surface. Approximately 2 km of conformable stratigraphy is exposed in the study area, and therefore at least several kilometers of the local ILD were deposited subsequent to any chasma‐related normal faulting that may have occurred in this part of Candor Chasma.

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The High Resolution Imaging Science Experiment (HiRISE) during MRO’s Primary Science Phase (PSP)

McEwen¹,

Banks²,

Baugh³

et al. 2010

Icarus

151

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C. H. Okubo

North polar region of Mars: Advances in stratigraphy, structure, and erosional modification

Dependence of displacement–length scaling relations for fractures and deformation bands on the volumetric changes across them

A Closer Look at Water-Related Geologic Activity on Mars

Pit crater formation on Kilauea volcano, Hawaii.

Shallow radar (SHARAD) sounding observations of the Medusae Fossae Formation, Mars

The Colour and Stereo Surface Imaging System (CaSSIS) for the ExoMars Trace Gas Orbiter

Relative age of interior layered deposits in southwest Candor Chasma based on high‐resolution structural mapping

The High Resolution Imaging Science Experiment (HiRISE) during MRO’s Primary Science Phase (PSP)

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