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References

  • Adams, J. B., Visible and near-infrared diffuse reflectance spectra of pyroxenes as applied to remote sensing of solid objects in the solar system, J. Geophys. Res., 79, 48394836, 1974.
  • Cloutis, E. A., M. J. Gaffey, Lunar regolith analogues: Spectral reflectance properties of compositional variations, Icarus, 102, 203224, 1993.
  • Crown, D. A., C. M. Pieters, Spectral properties of plagioclase and pyroxene mixtures and the interpretation of lunar soil spectra, Icarus, 72, 492506, 1987.
  • Dence, M. R., R. A. F. Grieve, P. B. Robertson, Terrestrial impact structures: Principal characteristics and energy considerations, Impact and Explosion CrateringD. J. Roddy, R. O. Pepin, R. B. Merill, 247276, Pergamon, Tarrytown, New York, 1977.
  • Fischers, E. M., C. M. Pieters, Remote determination of exposure degree and iron concentration of lunar soils using VIS-NIR spectroscopic methods, Icarus, 111, 475488, 1994.
  • Fischers, E. M., C. M. Pieters, Composition and exposure age of the apollo 16 Cayley and Descartes regions from Clementine data: Normalizing the optical effects of space weathering, J. Geophys. Res., 101, 22252234, 1996.
  • Isbell, C. E., E. M. Eliason, T. Becker, E. M. Lee, A. McEwen, M. Robinson, The Clementine mission: An archive of a digital image model of the Moon, Lunar Planet. Sci., XXVIII, 623624, 1997.
  • Larson, S. M., J. R. Johnson, R. B. Singer, Evaluation of the sensitivity of the reflectance ratios to mafic minerals in the lunar regolith, Geophys. Res. Lett., 18, 21492152, 1991.
  • Lucey, P. G., B. R. Hawke, T. B. McCord, C. M. Pieters, J. W. Head, A compositional study of the aristarchus region of the moon using near-infrared reflectance spectroscopy, J. Geophys. Res., 82, D344D354, 1986.
  • Lucey, P. G., B. R. Hawke, K. Horton, Visible and infrared imaging of Copernicus crater and surroundings, Lunar Planet. Sci., XXII, 833834, 1991a.
  • Lucey, P. G., B. R. Hawke, K. Horton, The distribution of olivine in the crater Copernicus, Geophys. Res. Lett., 18, 21332136, 1991b.
  • Lucey, P. G., J. L. Hinrichs, E. Malaret, Progress toward calibration of the clementine NIR camera data set, Lunar Planet. Sci., XXVIII, 843844, 1997.
  • Lucey, P. G., et al., Calibration of the Clementine near infrared camera: Ready for prime time, Lunar Planet. Sci., XXIX, 15761577, 1998.
  • Martinez, P., A. Klotz, A Practical Guide to CCD Astronomy, Cambridge Univ. Press, New York, 1997.
  • McEwen, A. S., M. S. Robinson, E. M. Eliason, P. G. Lucey, T. C. Duxbury, P. D. Spudis, Clementine observations of the aristarchus region of the moon, Science, 266, 18581862, 1994.
  • McKay, D. S., G. Heiken, A. Basu, G. Blanford, S. Simon, R. Reedy, B. M. French, J. Papike, The lunar regolith, Lunar SourcebookG. H. Heiken, D. T. Vaniman, B. M. French, 285356, Cambridge Univ. Press, New York, 1991.
  • Nozette, S., et al., The Clementine mission to the Moon: Scientific overview, Science, 266, 18351839, 1994.
  • Pieters, C. M., Copernicus crater central peak: Lunar mountain of unique composition, Science, 215, 5961, 1982.
  • Pieters, C. M., Composition of the lunar highland crust from near-infrared spectroscopy, Rev. Geophys., 24, 557578, 1986.
  • Pieters, C. M., D. E. Wilhelms, Origin of Olivine at Copernicus, J. Geophys. Res., 90, 415420, 1985.
  • Pieters, C. M., M. I. Staid, E. M. Fischer, S. Tompkins, G. He, A sharper view of impact craters from Clementine data, Science, 266, 18441848, 1994.
  • Pinet, P. C., S. Chevrel, P. Martin, Copernicus- A regional probe of the lunar interior, Science, 260, 797801, 1993.
  • Pinet, P. C., P. Martin, F. Costard, S. Chevrel, Y. Daydou, P. E. Johnson, Aristarchus plateau: Clementine spectro-imaging and geological inferences, Lunar Planet. Sci., XXVII, 10371038, 1996.
  • Priest, R. E., I. T. Lewis, N. R. Sewall, H. S. Park, M. J. Shannon, A. G. Ledebuhr, L. D. Pleasance, M. A. Massie, K. Metschuleit, Near-infrared camera for the Clementine mission, Proc. Int. Soc. Opt. Eng., 2475, 393404, 1995.
  • Roddy, D. L., Large-scale impact and explosion craters: Comparisons of morphological and structural analogs, Impact and Explosion CrateringD. J. Roddy, R. O. Pepin, R. B. Merill, 185246, Pergamon, Tarrytown, New York, 1977.
  • Singer, R. B., Near-infrared spectral reflectance of mineral mixtures: Systematic combinations of pyroxenes, olivine, and iron oxides, J. Geophys. Res., 86, 79677982, 1981.
  • Smrekar, S., C. M. Pieters, Near-infrared spectroscopy of probable impact melt from three large lunar highland craters, Icarus, 63, 442452, 1985.
  • Spudis, P., C. Pieters, Global and regional data about the Moon, Lunar SourcebookG. H. Heiken, D. T. Vaniman, B. M. French, 595632, Cambridge Univ. Press, New York, 1991.