Drew Enns
LROC News System
Our impressions (and interpretations) of surface features on planetary bodies are affected by the way they interact with sunlight when we image them.
For instance, the shape of a crater is brought out by shadows in large incidence angles (Sun near the horizon) images.
In today’s Featured Image, we are observing a crater with the Sun nearly directly above the surface. This type of image (small incidence angle) helps scientists understand the physical properties of the surface. Why might the ejecta blanket of the crater be highly reflective? Why is the interior have a much lower reflectance? Two different surface properties could be affecting what we see. First, 'fresh' material should be brighter than surrounding material. And second, the composition of materials affects how they reflect light (see albedo).
In the case of today's Featured Image, the crater looks very young. We have some stratigraphic evidence for this as the crater is sitting on top of a larger flesh unnamed crater's ejecta deposit (see context image below).
Explore more ejecta in full the NAC frame, HERE.
Related Posts:
Ejecta Starburst
Swept Surface
Symmetric Ejecta
Shades of Grey
LROC News System
Our impressions (and interpretations) of surface features on planetary bodies are affected by the way they interact with sunlight when we image them.
For instance, the shape of a crater is brought out by shadows in large incidence angles (Sun near the horizon) images.
In today’s Featured Image, we are observing a crater with the Sun nearly directly above the surface. This type of image (small incidence angle) helps scientists understand the physical properties of the surface. Why might the ejecta blanket of the crater be highly reflective? Why is the interior have a much lower reflectance? Two different surface properties could be affecting what we see. First, 'fresh' material should be brighter than surrounding material. And second, the composition of materials affects how they reflect light (see albedo).
A similar, somewhat larger crater for comparison - one also considered to be relatively fresh - in Oceanus Procellarum, northeast of the central eye of the Reiner Gamma albedo swirl. The explicit central melt floor, or disk, may resemble the less clearly resolved fresh crater spot-lighted in this post. You can read the feature story about this comparable crater HERE. LROC NAC observation M111972680L [NASA/GSFC/Arizona State University]. |
LROC Wide Angle Camera (WAC) context of the region around the small crater highlighted in the LROC Featured Image, located near the red cross (3.022°N, 258.698°E). Image field of view roughly 85 km [NASA/GSFC/Arizona State University]. |
Explore more ejecta in full the NAC frame, HERE.
Related Posts:
Ejecta Starburst
Swept Surface
Symmetric Ejecta
Shades of Grey
Could it be a collapse pit?
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