July 3, 2019

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How Thick Are Rays?

Originally published March 21, 2010 LPOD-Mar21-10.jpg
image by Howard Eskildsen, Florida

Most dark halo craters (DHC) on maria are normal impact craters that penetrated bright crater rays or ejecta and excavated underlying dark basaltic lavas. Howard has begun an investigation to see if DHC can be used to determine thicknesses of crater rays. He marked (with short turquoise lines) all the DHC he could find in the area east of Copernicus. He notes that the greatest concentrations of DHC are where the rays appear the thinnest (because the mare surface is not very bright), which areas he has marked with circles. Outside of the circles there are fewer DHC and they have larger diameters, presumably since it takes a larger impact to penetrate the deeper ray layers closer to Copernicus. One of the largest DHC in the area is the 4.6 km wide Copernicus H. Accepting that the transient cavity formed early in an impact was about 30% of the crater's diameter, suggests that the bright ray and ejecta material where H formed is about 1.4 km deep. That is much thicker than a ray is likely to be, but H formed close enough to Copernicus to be on top of the thick continuous ejecta deposit. Howard finds that for the smaller DHC further from Copernicus (in the circles) the implied ray thicknesses are more like 100 m. Because rays themselves do not cast shadows they are presumably much thinner than 100 m, but Howard's method is a good approach to mapping variations in ray thickness. Using higher resolution and high Sun Clementine images would allow detection of smaller DHC permitting more accurate ray thickness determinations - a good project.

Chuck Wood

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Rükl plate 31


Yesterday's LPOD: Another Ina?

Tomorrow's LPOD: An Orange Sky Ring


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