National Aeronautics and Space Administration

Apollo 15 Non-refereed Publications

1. The Global View of Lunar Geochemistry from the Apollo Gamma Ray Spectrometer
   Arnold, J et al., M&PSA, 40, 5281 (2005)
2. Combined gamma-ray and neutron detector for measuring the chemical composition of airless planetary bodies
   Lawrence, D et al., SPIE, 4507, 162 (2001)
3. A Combined Gamma-Ray and Neutron Detector for Measuring the Chemical Composition of Comets and Other Planetary Bodies
   Lawrence, D et al., Forum on Innovative Approaches to Outer Planetary Exploration 2001-2020, 49 (2001)
4. Determining Lunar Titanium Abundance on the Basis of Combined Remote Sensing Techniques
   Clark, P & Evans, L, LPI, 30, 1824 (1999)
5. Lunar Global Petrologic Variations
   Bussey, D, Spudis, P & Gillis, J, New Views of the Moon 2: Understanding the Moon Through the Integration of Diverse Datasets, 5 (1999)
6. The Distribution of Titanium in Lunar Soils on the Basis of Sensor and In Situ Data Fusion
   Clark, P & Evans, L, New Views of the Moon 2: Understanding the Moon Through the Integration of Diverse Datasets, 7 (1999)
7. Iron Abundances on the Moon as Seen by the Lunar Prospector Gamma-Ray Spectrometer
   Lawrence, D et al., New Views of the Moon 2: Understanding the Moon Through the Integration of Diverse Datasets, 38 (1999)
8. Lunar Elemental Abundances from Gamma-Ray and Neutron Measurements
   Reedy, R & Vaniman, D, New Views of the Moon 2: Understanding the Moon Through the Integration of Diverse Datasets, 50 (1999)
9. The Mineralogy of the Youngest Lunar Basalts
   Staid, M & Pieters, C, New Views of the Moon 2: Understanding the Moon Through the Integration of Diverse Datasets, 62 (1999)
10. Iron signatures in Planetary Regoliths: The Moon as Case Study
    McFadden, L, Clark, P & Basu, A, DPS, 30, 0702 (1998)
11. Determining Iron Distribution in the Regolith of 433 Eros
    Clark, P, Evans, L & Murphy, M, DPS, 30, 0703 (1998)
12. Mapping Iron Distribution in the Lunar Crust, Part 1: Establishing the Relationship Between Chemical and Mineralogical Iron Abundances and Albedo
    Clark, P & McFadden, L, LPI, 28, 237 (1997)
13. The Distribution of Th on the Moon's Surface
    Haskin, L, LPI, 28, 519 (1997)
14. Some Issues Related to Lunar FeO and TiO2 Multispectral Mapping
    Lucey, P & Blewett, D, LPI, 28, 841 (1997)
15. Continuum background in space-borne gamma-ray detectors.
    Evans, L et al., High Energy Radiation Background in Space, 47 (1997)
16. Lunar regolith densification
    Ko, H & Sture, S, Space Construction Activities, 28 (1991)
17. Elemental Abundances Around Apollo 14 and Other Selected Lunar Regions from the Apollo Gamma-Ray Spectrometer Experiment
    Reedy, R, Moon in Transition: Apollo 14, KREEP, and Evolved Lunar Rocks, 100 (1989)
18. Some observations on the geology of the Apollo 15 landing site
    Swann, G, Geology of the Apollo 15 Landing Site, 60 (1985)
19. Planetary gamma-ray spectroscopy
    Reedy, R, Gamma Ray Spectroscopy in Astrophysics, 98 (1978)
20. The galactic gamma-ray flux in the 0.06 to 5 MeV range
    Gilman, D et al., Gamma Ray Spectroscopy in Astrophysics, 190 (1978)
21. Lunar elemental analysis obtained from the Apollo gamma-ray and X-ray remote sensing experiment.
    Trombka, J et al., NASSP, 370, 153 (1977)
22. Lunar resource surveys from orbit
    Arnold, J, spmf conf (1977)
23. Studies in support of the analysis of astronomical data from Apollo 16
    Greisen, K, cuni rept (1976)
24. Interpretation of Various Radiation Background Observed in the Gamma-Ray Spectrometer Experiments Carried on the Apollo Missions and Implications for Diffuse Gamma-Ray Measurements
    Dyer, C et al., International Cosmic Ray Conference, 2 (1975)
25. Analytic Methods in Determining Elemental Composition From the Apollo Gamma-Ray Spectrometer Data
    Trombka, J et al., LPI, 6, 818 (1975)
26. Apollo 17 mission Report. Supplement 6: Calibration results for gamma ray spectrometer sodium iodide crystal
    Dyer, C & Trombka, J, gsfc rept (1975)
27. Lunar elementar analysis obtained from the Apollo gamma-ray and X-ray remote sending experiment.
    Metzger, A et al., leao book (1974)
28. Lunar elemental analysis obtained from the Apollo gamma-ray and X-ray remote sensing experiment
    Trombka, J et al., Soviet-American Conference on the Cosmochemistry of the Moon and Planets, 4 (1974)
29. Summary of scientific results: Apollo 15
    Allen, J, plug, nasa, 429 (1974)
30. Some Correlations Between Measurements by the Apollo Gamma Ray Spectrometer and Other Lunar Observations
    Metzger, A et al., LPI, 4, 517 (1973)