New Earth-based absolute photometry of the Moon

New Earth-based absolute photometry of the Moon

► New determination of absolute apparent albedo of the Moon is carried out. ► Difference near 13% is found between ROLO and our albedo. ► Smaller slope of phase curve was found for bright craters at small phase angles. A 2-month series of quasi-simultaneous imaging photometric observations of the Mo...

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Bibliographic Details
Published in:Icarus (New York, N.Y. 1962) Vol. 214; no. 1; pp. 30 - 45
Main Authors: Velikodsky, Yu.I., Opanasenko, N.V., Akimov, L.A., Korokhin, V.V., Shkuratov, Yu.G., Kaydash, V.G., Videen, G., Ehgamberdiev, Sh.A., Berdalieva, N.E.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier Inc 01-07-2011
Elsevier
Subjects:
Astronomy
Earth, ocean, space
Exact sciences and technology
Image processing
Moon, Surface
Photometry
Solar system
Uzbekistan
Image processing
Moon, Surface
Photometry
Photometric observation
Moon
Backscattering
Sun
Earth planet
Surface
Phase function
Albedo
Standard deviation
Solar system
Simultaneous observation
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Summary:► New determination of absolute apparent albedo of the Moon is carried out. ► Difference near 13% is found between ROLO and our albedo. ► Smaller slope of phase curve was found for bright craters at small phase angles. A 2-month series of quasi-simultaneous imaging photometric observations of the Moon and the Sun has been performed at Maidanak Observatory (Uzbekistan). New absolute values of lunar albedo have been obtained. Maps of lunar apparent albedo and equigonal albedo at phase angles 1.7–73° at wavelength 603 nm are presented. The standard deviation of our data from a best-fitted phase curve is 2%. The average ratio of the Clementine albedo to ours is 1.41. While the ratio of ROLO albedo to ours is 0.87, our data are in agreement with independent measurements of absolute albedo by Saiki et al. (Saiki, K., Saito, K., Okuno, H., Suzuki, A., Yamanoi, Y., Hirata N., Nakamura, R. [2008]. Earth Planets Space 60, 417–424) at a phase angle near 7°. A phase ratio imaging near opposition (1.6°/2.7°) shows almost the same ratio for maria and highlands, though bright craters (e.g., Tycho, Copernicus, Aristarchus) clearly reveal smaller slopes of phase function. This is an unexpected result, as the craters are bright and one could anticipate a manifestation of the coherent backscattering effect resulting in the opposition spike increasing at so small phase angles.
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ISSN:0019-1035
1090-2643
DOI:10.1016/j.icarus.2011.04.021