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Seeing in the Dark

Originally published February 5, 2010 LPOD-Feb5-10.jpg
images by Paolo Lazzarotti, Massa, Italy

Under a very dark sky, I have heard, you can see by the starlight. And certainly the full Moon makes enough illumination to take midnight hikes. Somewhere between those extremes are the shadowed areas within lunar craters. The shadows are inky black, without an atmosphere to scatter light, but are the shadowed areas completely black? The answer is doubly no. We know that the very sensitive camera on the Kaguya orbiter could image the always shadowed floor of Shackleton. And now we see that some Earthly cameras can also penetrate lunar shadows. Paolo manipulated one of his normal high quality images of the Maurolycus area, greatly spreading the dark part of the image over a wide range of pixel values. This revealed faint bright spots on the floor of the crater. Comparison with an earlier image he had taken of Maurolycus (right) demonstrates that Paolo imaged the central peaks and craters on the floor of Maurolycus. Presumably light bounced off the illuminated right wall of Maurolycus provided the faint light that reflected off the floor details.</span> I am not aware if this has been accomplished before from Earth, but it will undoubtedly lead many observers to hyper-enhance their images, perhaps looking to investigate what degree of wall illumination best reveals enshadowed details. This discovery will not provide new details of lunar topography, for what we see faintly will become clear as the Sun rises over a crater. But it does suggest two other things. First, when the Chinese reach the Moon they may be able to work in shadowed areas near the terminator, using military style light enhancement goggles. Second, permanently shadowed polar craters are constantly bathed in very feeble light reflected from the upper parts of their illuminated rims. It may be that over a billion years, this is enough light and heat to sublime ice deposits. Perhaps that is why there was surprisingly little water released by the LCROSS impact in Cabaeus.

Chuck Wood

Technical Details
Left image: Aug. 12, 2009, 02:07 UT. Gladius CF-315 Lazzarotti Opt. telescope + LV-11392 PRO experimental camera + Edmund Optics R filter, 100 of 2000 frames stacked; right one: Jan. 17, 2005

Related Links
Rükl plate 66
Paolo's website

Yesterday's LPOD: Fold a Moon

Tomorrow's LPOD: Not the Center of Attention


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