Photometrically normalized 7-color semi-global mosaic using Hapke parameter maps

Contents: Photometrically normalized radiance factor (I/F)

Wavelength: 321, 360, 415, 566, 604, 643, and 689 nm

Areal Coverage: 70°N-70°S, 0°E- 360°E

Map projection: Equirectangular (centered at 0°N, 0°E; 400 m/pixel at the equator) using ephemeris data provided by Lunar Orbiter Laser Altimeter (LOLA) and Gravity Recovery and Interior Laboratory (GRAIL) teams [1] and an improved geometric camera model [2].

Image Source: ~124,300 images acquired by Wide Angle Camera from January 21, 2010 to May 1st, 2013

Photometric Normalization: Normalized to the angles of phase (g) = incidence (i) = 60°, emission (e) = 0° by Hapke bidirectional reflectance function [3] using Hapke parameter maps [4]. The g, i, and e angles were calculated using the WAC stereo digital terrain model (GLD100) [5]. Each pixel value of this mosaic consists of a median of normalized I/F from ~40 months of repeated observations (UV:58-59, visible:136-140 observations in average). For more methodological details, see [4].

Archive Products: The semi-global 7-band mosaic is archived by each band with tiles of 70° latitude by 90° longitude tiles. A 3-band 8-bit/band RGB (R=689 nm, G=415 nm, B=321 nm) mosaic is also archived using the same tiling scheme. All tiled product files are named in following manner: WAC_HAPKE_[wavelength, e.g., 321NM]_[projection, E for equirectangular][center latitude x10][N/S][center longitude x10].

 

Product Name

Latitude Range

Longitude Range

WAC_HAPKE_*****_E350N0450

0° to 70°

0° to 90°

WAC_HAPKE_*****_E350S0450

-70° to 0°

0° to 90°

WAC_HAPKE_*****_E350N1350

0° to 70°

90° to 180°

WAC_HAPKE_*****_E350S1350

-70° to 0°

90° to 180°

WAC_HAPKE_*****_E350N2250

0° to 70°

180° to 270°

WAC_HAPKE_*****_E350S2250

-70° to 0°

180° to 270°

WAC_HAPKE_*****_E350N3150

0° to 70°

270° to 360°

WAC_HAPKE_*****_E350S3150

-70° to 0°

270° to 360°

Product Citation:

Sato, H., Robinson, M.S., Hapke, B., Denevi, B.W., Boyd, A.K. (2014) Resolved Hapke parameter maps of the Moon. Journal of Geophysical Research Planets 119, 1775–1805. doi:10.1002/2013JE004580.

RDR SIS:

http://lroc.sese.asu.edu/data/LRO-L-LROC-5-RDR-V1.0/LROLRC_2001/DOCUMENT/RDRSIS.PDF

References:

[1] Mazarico, E., Rowlands, D.D., Neumann, G.A., Smith, D.E., Torrence, M.H., Lemoine, F.G., Zuber, M.T., (2012), Orbit determination of the Lunar Reconnaissance Orbiter, Journal of Geodesy, Volume 86, Issue 3, pp.193-207, doi:10.1007/s00190-011-0509-4.

[2] Speyerer, E.J., R.V. Wagner, M.S. Robinson, A. Licht, P.C. Thomas, K. Becker, J. Anderson, S.M. Brylow, D.C. Humm, M. Tschimmel (2014), Pre-flight and On-orbit Geometric Calibration of the Lunar Reconnaissance Orbiter Camera, Space Science Reviews, doi:10.1007/s11214-014-0073-3.

[3] Hapke, B. (2012) Theory of reflectance and emittance spectroscopy. Cambridge University Press, New York.

[4] Sato, H., Robinson, M.S., Hapke, B., Denevi, B.W., Boyd, A.K. (2014) Resolved Hapke parameter maps of the Moon. Journal of Geophysical Research Planets 119, 1775–1805. doi:10.1002/2013JE004580.

[5] Scholten, F., J. Oberst, K.-D. Matz, T. Roatsch, M. Wählisch, E.J. Speyerer, M.S. Robinson (2012), GLD100 – the near-global lunar 100 meter raster DTM from LROC WAC stereo image data, Journal of Geophysical Research, 117, doi:10.1029/2011JE003926.

WAC Hapke Normalized Mosaic

3-band color (400 mpp)

321 nm wavelength (400 mpp)

360 nm wavelength (400 mpp)

415 nm wavelength (400 mpp)

566 nm wavelength (400 mpp)

604 nm wavelength (400 mpp)

643 nm wavelength (400 mpp)

689 nm wavelength (400 mpp)


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