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17. Commission de La Lune

Published online by Cambridge University Press:  25 April 2016

D. H. Menzel  and
B. Bell

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Reports of Commissions
Information
Transactions of the International Astronomical Union , Volume 13 , Issue 1: Reports on Astronomy , 1967 , pp. 341 - 374
Copyright
Copyright © Reidel 1967

References

Bibliography

Sources of Abstracts

P. Physics Abstracts, publ. monthly by the Institution of Electrical Engineers, London.

A. International Aerospace Abstracts, publ. semi-monthly by American Institute of Aeronautics and Astronautics, New York, N.Y.

N. Scientific and Technical Aerospace Reports, publ. semi-monthly by NASA, Scientific and Technical Information Division, available from U.S. Government Printing Office, Washington, D.C.

S. Lunar Surface Studies: a Continuing Bibliography with indexes.

NASA–SP–7003 (01), March 1965;

NASA–SP–7003 (02), April 1966.

U. Bibliography of Lunar and Planetary Research, 1960–64. Ed. J. W. Salisbury. AFCRL–66–52, Special Report No. 40. 524 p. (Moon, p. 257–373), January 1966.

A. Books and Conference Proceedings

1. The Lunar Surface Layer, Materials and Characteristics. Eds. Salisbury, J. W., Glaser, P. E.. New York, Academic Press, 1964, 532 p. (A64–26059)Google Scholar
2. Physics of the Moon and Planets (Fizika Luny i Planet). Ed. Koval, I. K.. Kiev, Naukova Dumka, 1964, 140 p. (A65–18967)Google Scholar
3. Geological Problems in Lunar Research. Annals N. Y. Acad. Sci., 123, p. 3671257, 1965. (A65–34229)Google Scholar
4. Lunar and Planetary Surface Conditions. Weil, N. A.. New York, Academic Press, 1965, 222 p. (A65–26272)Google Scholar
5. Lunar Geology. Fielder, G.. London, Lutterworth Press, 1965, 184 p. (A66–27490)Google Scholar
6. Photographic Atlas of the Moon. Z. Kopal, New York, Academic Press, 1965, 277 p. (A66–31747)Google Scholar
7. Astrogeologic Studies – Summary: Annual Progress Report, 1 July 1964–1 July 1965, 1965, 34 p. (N66–21635)Google Scholar
7a. Astrogeologic Studies. Part A: Lunar and Planetary Investigations, Annual Progress Report No. 6. 1 July 1964–1 July 1965, 1965, 131 p. (N66–21350)Google Scholar
7b. Astrogeologic Studies. Part B: Crater Investigations, Annual Progress Report, 1 July 1964–1 July 1965. H. G. Wilshire et al., 1965, 184 p. (N66–21584)Google Scholar
8. The Nature of the Lunar Surface: Proceedings of the IAU/NASA 1965 Symposium, Eds. Hess, W. N., Menzel, D. H., O'Keefe, J. A.. Baltimore, Johns Hopkins Press, 1966, 320 p. (A66–35437)Google Scholar
9. Proceedings of the Caltech-JPL Lunar and Planetary Conference. Eds. Brown, H., Stanley, G. J., Muhleman, D. O., Muench, G.. 15 June 1966, 357 p. (N66–31446) (Summary by O'Keefe, J. A., Sky and Tel., 31, 10–12, 1966)Google Scholar
10. La Lune à l'Ère Spatiale. Ed. Rösch, J.. Publ. of the Centre National d'Études Spatiales, Presses Universitaires de France, 1966, 192 p.Google Scholar
11. Physics of the Moon and Planets. (Fizika Luny i Planet). Kiev, Naukova Dumka, 1966, 110 p.Google Scholar
12. Figure and Motion of the Moon (Figura i drizhenie Luny). Ed. Yakovkin, A. A., Kiev, Naukova Dumka, 1965, 137 p.Google Scholar
13. Figure and Motion of the Moon (Figura i drizhenie Luny). Kiev, Naukova Dumka, 1967 (in press).Google Scholar
14. Moon and Planets. Ed. Dollfus, A.. Amsterdam, North Holland Publ. Co., 1967 (in press).Google Scholar
1. Ranger VII Photographs of the Moon. Part I: Camera A Series, Sept. 1964, 226 p., NASA–SP–61 (N64–31723); Camera B Series, Dec. 1964, 200 p., NASA–SP–62; Camera P Series, Feb. 1965, 200 p., NASA–SP–63.Google Scholar
2. Ranger VII. Part II: Experimenters’ Analyses and Interpretations. Heacock, R. L., Kuiper, G. P., Shoemaker, E. M., Urey, H. C., Whitaker, E. A.. Jet Propulsion Lab. Tech. Rep. No, 32–700. Feb. 1965, 156 p. (N65–22162)Google Scholar
3. Ranger VIII Photographs of the Moon, Cameras A, B, and P. 1966, 478 p., NASA–SP–111. (N66–25366)Google Scholar
4. Ranger IX Photographs of the Moon, Cameras A, B, and P. 1966, 193 p., NASA–SP–112. (N66–26555)Google Scholar
5. Ranger VIII and IX. Part II: Experimenters’ Analyses and Interpretations. Heacock, R. L., Kuiper, G. P., Shoemaker, E. M., Urey, H. C., Whitaker, E. A.. Jet Propulsion Lab. Tech, Rep. No. 32–800, 1 March 1966, 182 p. (N66–25046)Google Scholar
6. Couderc, P. The Moon photographed by Ranger VII. L'Astronomie, 79, 41. 1965. (P65–24334)Google Scholar
7. Kuiper, G. P. The surface structure of the Moon. p. 99105 in ref. A8. (A66–35441)Google Scholar
8. Kuiper, G. P. Lunar results from Rangers VII to IX. Sky and Tel., 29, 293, 1965, (A65–23739)Google Scholar
9. Kuiper, G. P. Interpretation of the Ranger records, p. 24–29 in ref. A9. (N66–31448)Google Scholar
10. Nicks, O. W. The Ranger Lunar Missions. COSPAR, 6th Intern. Space Sci. Symposium, Buenos Aires, May 1965, 54 p. (A65–25918)Google Scholar
11. Schurmeier, H. M., Heacock, R. L., Wolte, A. E. The Ranger missions to the Moon. Sci. Amer., 214, 52, 1966. (A66–18360)CrossRefGoogle Scholar
12. Shoemaker, E, M. The Moon close up. Nat'l. Geographic, 126, No. 5, 690, 1964.Google Scholar
13. Smith, G. M., Vrebalovich, T., Willingham, D. E. Eyes on the Moon. Astronautics and Aeronautics, 4, 74, 82, 1966.Google Scholar
14. Urey, H. C. Observations on the Ranger photographs, p. 3–21 in ref. A8. (A66–35438)Google Scholar
15. Urey, H. C. Observations on the Ranger VIII and IX pictures, p. 1–23 in ref. A9. (N66–31447)Google Scholar
1. The First Panoramic Views of the Lunar Surface (Pervyye Panoramy Lunnoy Poverkhnosti). Moscow, Izd. Nauka, 1966, 132 p. (N66–38486)Google Scholar
2. Davies, J. G., Lovell, B., Pritchard, R. S., Smith, F. G., Observations of the Russian Moon probe Luna 9. Nature, 209, 848, 1966. (A66–23915)Google Scholar
3. Fielder, G., Wilson, L., Guest, J. E. The Moon from Luna 9. Nature, 209, 851, 1966. (A66–23916)Google Scholar
4. Gault, D. E., Quaide, W. L., Oberbeck, V. R., Moore, H. J. Luna 9 photographs-evidence for a fragmental surface layer. Science, 153, 985, 1966. (A66–40017)Google Scholar
5. Gold, T., Hapke, B. W. Luna 9 pictures –implications. Science, 153, 290, 1966. (A66–40522)Google Scholar
6. Kuiper, G. P., Strom, R. G., LePoole, R. S., Whitaker, E. A. Russian Luna 9 pictures – provisional analysis. Science, 151, 1561, 1966. (A66–25137)Google Scholar
7. Lipsky, Y. N. What Luna 9 told us about the Moon. Sky and Tel., 32, 257, 1966.Google Scholar
8. Shoemaker, E. M., Batson, R. N., Larson, K. B. An appreciation of the Luna 9 pictures. Astronautics and Aeronautics, 4, 40, May 1966.Google Scholar
9. Surveyor I – preliminary results. Science, 152, 1737, 1966. (A66–29657)Google Scholar
10. Pictures from the Moon. Sky and Tel., 32, 16, 1966.Google Scholar
11. Some Surveyor findings. Sky and Tel., 32, 63, 1966.Google Scholar
1. Lipsky, Y. N. Zond–3 photographs of the Moon's far side. Sky and Tel., 30, 338, 1965. (A66–14023)Google Scholar
2. Acad. Sci. U.S.S.R., Report to COSPAR, Wien, 1966.Google Scholar
3. Hartmann, W. K. Lunar basins, lunar lineaments, and the Moon's far side. Sky and Tel., 32, 128, 1966. (A66–40544)Google Scholar
4. Kovalevsky, J. The far side of the Moon seen by Zond–3. L'Astronomie, 79, 421, 1965. (A66–21755)Google Scholar
5. Lipsky, Y. N. The far side of the Moon. Flight International, 88, 554, 1965. (A65–34814)Google Scholar
1. TASS Reports, Pravda, 5 April and 10 April, 1966.Google Scholar
2. Press-conference on Luna–10, Pravda, 17 April, 1966.Google Scholar
3. Acad. Sci. U.S.S.R. Report, Pravda, 3 June, 1966.Google Scholar
4. Vinogradov, A. P., Surkov, Y. A., Chernov, G. M. Dokl. Akad. Nauk SSSR, 1966, in press.Google Scholar
5. Vinogradov, A. P., Surkov, Y. A., Chernov, G. M., Kirnosov, F. F., Nasarkma, G. B. Geokhimia, No. 8, 1966.Google Scholar
6. Vinogradov, A. P., Surkov, Y. A. Pravda, 14 Sep. 1966.Google Scholar
7. Gors, W., Oberdorfer, H. Luna 10. Sterne und Weltraum, 5, 215, 1966. (A66–40377)Google Scholar
8. Lunar Orbiter surveys the Moon. Sky and Tel., 32, 192, 1966.Google Scholar
9. Lunar Orbtter photographs of the Moon. Sky and Tel., 32, 346, 358, 1966.Google Scholar
10. Michael, W. H. Jr., Tolson, R. H., Gapcynski, J. P. Lunar orbiter – tracking data indicate properties of Moon's gravitational field. Science, 153, 1102, 1966. (A66–40302)Google Scholar
11. New York Times, 1 Dec. 1966; Sky and Tel., 33, 22, Jan. 1967.Google Scholar
4. Ranger Lunar Charts. United States Air Force, Aeronautical Chart and Information Center, St. Louis. Ranger VII, RLC 1–5, 1964; Ranger VIII, RLC 6–12, 1966; Ranger IX, RLC 13–17, 1966.Google Scholar
5. Arthur, D. W. G. The reduction of measures for position on a single lunar photograph. Comm. Lunar Planet. Lab., 4, 77, 1965. (A66–29969)Google Scholar
6. Arthur, D. W. G. Selenodetic measures on Yerkes lunar photograph No. 1170. Ibid., 4. 81, 1965. (A66–29970)Google Scholar
7. Arthur, D. W. G. The computation of selenodetic coordinates using the librations. Ibid., 4, 89, 1965, (A66–29971)Google Scholar
8. Arthur, D. W. G. Measures on star-trailed lunar photographs and their initial reductions. Ibid., No. 71, Jan, 1966.Google Scholar
9. Arthur, D. W. G. Scale transfer for lunar photographs. Ibid., No. 73, Feb. 1966.Google Scholar
10. Arthur, D. W. G. On the validity of selenodetic positions. Ibid., No. 74, March 1966.Google Scholar
11. Arthur, D. W. G. A method for the determination of the Moon's constants of rotation from measurements on scaled and oriented lunar photographs. Ibid., No. 75, May 1966.Google Scholar
12. Arthur, D. W. G. Selenodetic measures on Yerkes lunar photograph No. 1269. Ibid., No. 76, July 1966.Google Scholar
13. Arthur, D. W. G. Selenodetic measures on Yerkes lunar photograph No. 482. Ibid., No. 77, July 1966.Google Scholar
14. Bird, T. H. Large-scale lunar photogrammetry. Photogrammetric Engineering, 32, 227, 1966. (A66–25601)Google Scholar
15. Bray, T. A., Goudas, C. L. A contour map based on the selenodetic control system of the Aeronautical Chart and Information Center of the U.S. Air Force. Boeing Math. Note No. 457, 20 p., March 1966. (N66–31418)Google Scholar
16. Eckhardt, D. H. On the harmonic analysis of absolute lunar elevations. Icarus, 5, 313, 1966. (P66–28583; A66–33019)CrossRefGoogle Scholar
17. Eriksen, J. G. Lunar charting. Air Univ. Rev., 16, 76, 1965. (A65–27043)Google Scholar
18. Goudas, C. L. The selenodetic control system of the U.S. Army Map Service, Icarus, 4, 188, 1965. (A65–26047)Google Scholar
19. Herring, A. K. Preliminary drawings of lunar limb areas. IV. Comm. Lunar Planet. Lab., 3, 13, 1965. (A66–11496)Google Scholar
20. Herring, A. K. Preliminary drawings of lunar limb areas. V. Comm. Lunar Planet. Lab., 3, 15, 1965. (A66–11497)Google Scholar
21. Hunt, M. S. Progress in selenodesy. p. 1220–35 in ref. A3. (A65–34276)Google Scholar
22. Kopal, Z., Rackham, T. W. Photographic resolution on the lunar surface from ground-based facilities. Icarus, 2, 329, 1963. (A64–14463)Google Scholar
23. Meyer, D. L., Ruffin, B. W. Coordinates of lunar features. Icarus, 4, 513, 1965. (A66–19263; P66–13166)Google Scholar
24. Milton, D. J., Wilhelms, D. E. Geology from a relatively distant Ranger VIII photograph. p. 302–13 in ref. Ba5. (N66–25055)Google Scholar
25. Moore, H. J., Lugn, R. V. Experimental topographic map of a small area of the lunar surface from the Ranger VIII photographs, p. 295–302 in ref. Ba5. (N66–25054)Google Scholar
26. Morris, E. C., Wilhelms, D. E. Preliminary geologic map of the Julius Caesar quadrangle. ref. A7, map supplement.Google Scholar
27. Pohn, H. A. The Serenitatis Bench and the bond formation, p. 9–12, ref. A7a.Google Scholar
28. Riesen, A. A partial explanation of the divergence between visual and photographic measurements of relative elevations on the Moon. Arch. Sci. Switz., 17, 225, 1964. (P65–15825)Google Scholar
29. Rindfleisch, T. Photometric method for lunar topography, Photogrammetric Engineering, 32, 262, 1966. (A66–25603)Google Scholar
30. Rowan, L. C., West, M. Preliminary albedo map of the lunar equatorial belt. p. 101–14 in ref. A7a.Google Scholar
31. Samaha, A. H., Kopal, Z. Lunar photography with the 74-inch reflector of the Helwan Observatory at Kottamia. Icarus, 5, 309, 1966. (A66–33018; P66–28585)Google Scholar
32. Strom, R. G. Analysis of lunar lineaments. I–Tectonic maps of the Moon. Comm. Lunar Planet. Lab., 2, 205, 1964. (A65–23264)Google Scholar
33. Trask, N. J. Preliminary geologic map of a small area in Mare Tranquillitatis. p. 319–26 in ref. Ba5, (N66–25057)Google Scholar
34. Trask, N. J. Preliminary report on the geology of the Byrgius region of the Moon. p. 3–8 in ref. A7a.Google Scholar
35. Triplet, J.-M. Lunar topography and cartography. L'Astronomie, 80, 183, 1966. (A66–32132).Google Scholar
36. Wildey, R. L. A computer program for the transformation of lunar observations from celestial to selenographic coordinates. Icarus, 3, 136, 1964. (A64–28018)Google Scholar
37. Wilhelms, D. E. Fra Mauro and Cayley formations in the Mare Vaporum and Julius Caesar regions of the Moon. p. 13–27 in ref. A7a.Google Scholar
38. Wilhelms, D. E., Masursky, H., Bender, A. B., Ryan, J. D. Preliminary geologic mapping of the easternmost part of the lunar equatorial belt. p. 45–54 in ref. A7a.Google Scholar
39. Wilhelms, D. E., Trask, N. J. Compilation of geology in the lunar equatorial belt. p. 29–34 in ref. A7a.Google Scholar
40. Lisina, L. R., Shevchenko, V. V. p. 80–91 in ref. A12.Google Scholar
41. Lisina, L. R. p. 95–109 in ref. A11Google Scholar
42. Markov, A. V. Dokl. Akad. Nauk SSSR, 167, No. 1, 1966.Google Scholar
43. Mukhamedzhanov, A. K., Stanjukovich, K. P. Kosmicheskie Issledovania, 4, 408, 1966.Google Scholar
44. Gavrilov, I. V. In ref. A12.Google Scholar
45. Gavrilov, I. V., Duma, D. P., Kislyuk, V. S. In ref. A12.Google Scholar
46. Gavrilov, I. V., Duma, D. P., Kislyuk, V. S. In lef. A13.Google Scholar
47. Gavrilov, I. V. In ref. A13.Google Scholar
1. Ashby, N. Energy balance on the lunar surface. Publ. astr. Soc. Pacif., 78, 254, 1966. (A66–38052)Google Scholar
2. Bouska, J., Mayer, P. Photoelectric observation of the lunar eclipse of 1064 June 24–25. Bull. astr. Inst. Csl., 16, 252, 1965. (A65–32576)Google Scholar
3. Cohen, H. L., Dyck, H. M., Young, A. Intensity and color gradients in the Earth's umbra of 1964 December 19. Astr. J., 71, 270, 1966. (P66–28575; A66–32068)Google Scholar
4. Coyne, G. V. Differential colors on the Moon. Astr. J., 70, 115, 1965. (P65–10162)Google Scholar
5. Diggelen J., van The radiance of lunar objects near opposition. Planet. Space Sci., 13, 271, 1965. (P65–27804)Google Scholar
6. Feinstein, A. Photoelectric observations of the Moon during the total lunar eclipse of 1964 June 24–25. Bull. astr. Inst. Csl., 17, 163, 1966. (A66–39858)Google Scholar
7. Gallouët, L. New measurement of the apparent magnitude of the Sun and of the full Moon, C. R. Acad. Sci. (France), 256, 4593, 1963. (P64–2415)Google Scholar
8. Hämeen-Anttila, K. A., Laakso, P., Lumme, K. The shadow effect in the phase curves of lunar type surfaces. Arm. Acad. Sci. Fenmicae A VI (Finland), No, 172, 15p. 1965. (P65–27812)Google Scholar
9. Hansen, J. E., Matsushirna, S. Light illuminance and color in the Earth's shadow. J. geophys. Res., 71, 1073, 1966. (A66–22570)Google Scholar
10. Hapke, B. W., Van Horn, H. Photometric studies of complex surfaces, with applications to the Moon. J. geophys. Res., 68, 4545, 1963. (P64–2394)Google Scholar
11. Hapke, B. W. A theoretical photometric function for the lunar surface. J. geophys. Res., 68, 4571, 1963. (P64–2395)Google Scholar
12. Hapke, B. W. An improved theoretical lunar photometric function. Astr. J., 71, 333, 1966. (P66–32296)Google Scholar
13. Hardie, R. H. Three-color photometry of the 1960 March lunar eclipse. Publ. astr. Soc. Pacif. 76, 257, 1964. (P65–10164)Google Scholar
14. Lebedeva, I. I. Spectrophotometric comparison of the lunar surface with certain volcanic flows. Trudy astr. Obs. Leningrad. gos. Univ., 21, 99, 1964. (A65–25695)Google Scholar
15. Link, F. Two remarks concerning the terrestrial shadow on the Moon. Bull. astr. Inst. Csl., 17, 161, 1966. (A66–39857)Google Scholar
16. Marin, N., Zahn, J. P. The eclipse of the Moon, 1964 June 24–25. L'Astronomie, 79, 14, 1965. (P65–15826)Google Scholar
17. Mironova, M. N. Spectrophotometry of details on the lunar surface, p. 16–29, in ref. A2. (A65–18969)Google Scholar
18. Moore, P. The partial lunar eclipse of 1965 June 13–14, J. Brit. astr. Assoc., 75, 339, 1965. (P66–6060)Google Scholar
19. Oetking, P. Photometric studies of diffusely reflecting surfaces with applications to the brightness of the Moon. J. geophys. Res., 71, 2505, 1966. (P66–25153)Google Scholar
20. Hapke, B. W. Comments on paper by Philip Oetking, ‘Photometric studies of diffusely reflecting surfaces with applications to the brightness of the Moon’. J. geophys. Res., 71, 2515, 1966.Google Scholar
21. Rydgren, B. Photometric measurements of earthshine on the Moon. Stockholms Obs. Medd., No. 154.Google Scholar
22. Scott, N. W. Colour on the Moon. Nature, 204, 1075, 1964. (P65–10161)Google Scholar
23. Sergeeva, A. N. Spectral investigations of the lunar surface, p. 30–45 in ref. A2. (A65–18970)Google Scholar
24. Sharonov, V. V. Some results of photometric and colorimetric comparison of terrestrial volcanic crusts with the lunar surface, p. 740–50 in ref. A3. (A65–34248)Google Scholar
25. Sharonov, V. V. A photometric investigation of the presence of outer layers of volcanic origin on the Moon. Astr, Zu., 42, 136, 1965. (P6S–13741; A65–20656)Google Scholar
26. Sytinskaya, N. N. Albedo values for separate features of the lunar surface. Astr. Zu., 40, 1083, 1963. (P65–4626)Google Scholar
27. Sytinskaya, N. N. Photometric data for and against the presence of widely distributed volcanic activity on the Moon. p. 756–767, in ref. A3. (A65–34250)Google Scholar
28. Wildey, R. L. The Moon's photometric function. Nature, 200, 1056, 1963. (P64–23890)Google Scholar
29. Wildey, R. L., Pohn, H. A. Detailed photoelectric photometry of the Moon. Astr. J., 69, 619, 1964. (A65–26789)Google Scholar
30. Barabashov, N. P., Ezersky, V. I., Prishljak, N. P. Zirk. Kharkov Obs., No. 25, 1962.Google Scholar
31. Barabashov, N. P., Ezersky, V. I. Vestnik Kharkov Gos, Univ., No. 4, issue 1, ser. astr., 2242, 1965.Google Scholar
32. Barabashov, N. P., Ezersky, V. I., Ezerskaya, V. A. Ibid., issue 2, 1225, 1965.Google Scholar
33. Akimov, A. A. Ibid., issue 1, 4361, 1965.Google Scholar
34. Opriatova, V. S. Ibid., 6264.Google Scholar
35. Petrova, N. N. Izv. glav. astr. Obs. Pulkove, 24, 168, 1965.Google Scholar
36. Petrova, N. N. Ibid., No. 182.Google Scholar
37. Sharonov, V. V. Izv. Komissii po Fisike Planet, issue 4, 24, 1963.Google Scholar
38. Mironova, M. N. Spectral reflective characteristics of the lunar surface, p. 5–11 in ref. A11.Google Scholar
39. Bell, B., Wolbach, J. G. Lunar eclipses and the forecasting of solar minima. Icarus, 4, 409, 1965. (P66–6121)Google Scholar
40. Matsushima, S. Apparent correlation between the lunar eclipse brightness and the solar wind. Nature, 211, 1027, 1966.Google Scholar
41. Matsushima, S. Variation of lunar eclipse brightness and its association with the geomagnetic planetary index Kp. Astr. J., 71, 699, 1966.Google Scholar
1. Avramchuk, V. V., Polychromatic polarimetry of some lunar areas, p, 3–15 in ref. A2. (A65–18968)Google Scholar
2. Clarke, D. Studies in astronomical polarimetry, III. The wavelength dependence of the polarization of light reflected by the Moon and Mars. Mon. Not. R. astr. Soc, 130, 83, 1965, (P65–33883)Google Scholar
3. Coffeen, D. L. Wavelength dependence of polarization, IV. Volcanic cinders and particles. Astr. J., 70, 403, 1965. (P65–27794; A65–32411)Google Scholar
4. Dollfus, A., Geake, J. E. The alteration of the polarimetric properties of the lunar surface under the action of solar protons. C. R. Acad. Sri., 260, 4921, 1965. (A65–25246)Google Scholar
5. Dollfus, A. The application of polarized light for the study of the surface of the Moon. p. 19–30 in ref. A8. (A66–35445)Google Scholar
6. Gehrels, T., Coffeen, T., Owings, D. Wavelength dependence of polarization. III. The lunar surface. Astr. J., 69, 826, 1964. (P65–10163; A65–30647)Google Scholar
7. Hopfield, J. J., Mechanism of lunar polarization. Science, 151, 1380, 1966. (P66–22071)Google Scholar
8. Marin, M. Photoelectric measurements of polarization with a coudé telescope of 1 m. Rev. Opt., 44, 115, 1965. (P65–31234)Google Scholar
9. Wilhelms, D. E., Trask, N. J. Polarization properties of some lunar geologic units. p. 63–80 in ref. A7a.Google Scholar
10. Kokhan, E. K. Izv. glav. astr. Obs. Pulkove, 24, issue 2, No. 178, 182, 1965.Google Scholar
11. Lipsky, Y. N., Bondarenko, L. N. Soobšč. gos. astr. Inst. P. K. Sternberga, 1966 (in press).Google Scholar
12. Morozhenko, A. V. Investigation of polarizable properties of light reflected by various specimens of terrestrial rock. p. 70–82 in ref. A11.Google Scholar
13. Dzhapiashvili, V. P., Xanfomaliti, L. V. p. 275 in ref. A8.Google Scholar
14. Pospergelis, M. M. Astr. Zu., 42, 398, 1965.Google Scholar
1. Bastin, J. A. Lunar hot spots. Nature, 207, 1381, 1965. (A66–10884; P66–6071)Google Scholar
2. Binder, A. B., Cruikshank, D. P., Hartmann, W. K. Observations of the Moon and of the terrestrial rocks in the infrared. Icarus, 4, 415, 1965. (P66–6068; A65–35367)Google Scholar
3. Burns, E. A., Lyon, R. J. P. Errors in the measurement of the lunar temperature. J. geophys. Res., 69, 3771, 1964. (P65–15833; A64–26097)Google Scholar
4. Hunt, G. R., Salisbury, J. W. Lunar surface features: mid-infrared spectral observations. Science, 146, 641, 1964. (P65–4623; A64–28415)Google Scholar
5. Ingrao, H. C., Young, A. T., Linsky, J. L. A critical analysis of lunar temperature measurements in the infrared, p. 185–21: in ref. A8. (A66–35447)Google Scholar
6. Linsky, J. L., Models of the lunar surface including temperature-dependent thermal properties. Harvard Coll. Obs. Sri. Rep. No. 8, Jan. 1966, 90 p. (N66–21679)Google Scholar
7. Low, F. J. Lunar night-time temperatures measured at 20 microns. Astrophys. J., 142, 806, 1965. (P65–33929)Google Scholar
8. Markov, M. N., Khokhlova, V. L. Coefficients of emission in the infrared region of the spectrum and differences in the parameter γ = (kρc)– 1 2 for the sea and continent regions of the lunar surface. Dokl. Akad. Nauk SSSR, 157, 826, 1964. (A65–17942)Google Scholar
9. Markov, M. N., Khokhlova, V. L. The difference in the rate of heating of the east and west limbs of the Moon after an eclipse. Astr. Zu., 42, 386, 1965. (P65–27795)Google Scholar
10. Moroz, V. I. Infrared spectrophotometry of the Moon and the Galilean satellites of Jupiter. Astr. Zu., 42, 1287, 1965. (P66–9182)Google Scholar
11. Murcray, F. H. The spectral dependence of lunar emissivity. J. geophys. Res., 70, 4959. 1965. (P66–6070)Google Scholar
12. Murray, B. C., Wildey, R. L. Surface temperature variations during the lunar nighttime. Astrophys. J., 139, 734, 1964. (P64–15929; A64–16828)Google Scholar
13. Murray, B. C. Current problems in the interpretation of lunar physical observations. p. 32–33 in ref. A9. (N66–31450)Google Scholar
14. Ryadov, V. Y., Furashov, N. I., Sharonov, G. A. Measurements of the Moon's thermal radiation in the infrared. Astr. Zu., 41, 112, 1964. (P64–13915)Google Scholar
15. Saari, J. M. The surface temperature of the antisolar point of the Moon. Icarus, 3, 161, 1964. (A64–28020)Google Scholar
16. Saari, J. M., Shorthill, R. W. Thermal anomalies on the totally eclipsed Moon of 1964 December 19. Nature, 205, 964, 1965. (P65–20966)Google Scholar
17. Saari, J. M., Shorthill, R. W. Isotherms in the equatorial region of the totally eclipsed Moon. Boeing Sci. Res. Doc. D1–82–0530, Apr. 1966. (N66–31340)Google Scholar
18. Saari, J. M., Shorthill, R. W. Hot spots on the Moon. Sky and Tel., 31, 327, 1966.Google Scholar
19. Saari, J. M., Shorthill, R. W., Deaton, T. K. Infrared and visible images of the lunar surface during the eclipsed Moon of 1964 December 19. Icarus, in press, 1966. Boeing Sci. Res. Doc. D1–82–0533. (N66–38578)Google Scholar
20. Shorthill, R. W., Saari, J. M. Recent discovery of hot spots on the lunar surface–a brief report of infrared measurements on the eclipsed Moon. p. 215–28 in ref. A8. (A66–35448)Google Scholar
21. Shorthill, R. W., Saari, J. M. Nonuniform cooling of the eclipsed Moon–a listing of thirty prominent anomalies. Science, 150, 210, 1965, (A66–11302)Google Scholar
22. Shorthill, R. W., Saari, J. M. Radiometric and photometric mapping of the Moon through a lunation, p. 722–739 in ref. A3. (A65–34247)Google Scholar
23. Shorthill, R. W., Saari, J. M. Recent results of lunar eclipse measurements. (To be publ. in Proc. of 4–6 May 1965 meeting of the Amer. Astronautical Society)Google Scholar
24. Troitsky, V. S. Investigation of the surfaces of the Moon and planets by thermal radiation, p. 34–58 in ref. A9. (N66–31451)Google Scholar
25. Troitsky, V. S. Some remarks on new measurements of lunar temperature at the antisolar point, p. 59–60 in ref. A9. (N66–31452)Google Scholar
26. Watson, K. Small-scale roughness from lunar infrared emission, p. 55–60 in ref, A7a.Google Scholar
27. Wattson, R. B., Hapke, B. W. A comparison of the infrared spectra of the Moon and simulated lunar surface materials. Astrophys. J., 144, 364, 1966. (P66–22072; A66–28126)Google Scholar
28. Wattson, R. B., Danielson, R. E. The infrared spectrum of the Moon. Astrophys. J., 142, 16, 1965. (P65–27793)Google Scholar
29. Winter, D. F. On the nonuniform cooling behavior of the eclipsed Moon. Boeing Sci. Res. Lab. Doc. D1–82–0531, May 1966, 10 p. (N66–34S28)Google Scholar
30. Winter, D. F. Transient radiative heat exchange at the surface of the Moon. Boeing Sci. Res. Lab. Doc. D1–82–0559, Aug. 1966, 20 p.Google Scholar
31. Markov, M. N., Khokhlova, V. L. Izv. Komissii po Fizike Planet, No. 5, 1966, in press.Google Scholar
32. Chistjakov, Y. N. Izv. glav. astr. Obs. Pulkove, 24, issue 2, No. 178, 175181, 1965.Google Scholar
1. Baldock, R. V., Bastin, J. A., Clegg, R. E., Gaitskell, J. N., Gear, A. E. Lunar eclipse observations at 1-mm wavelength. Astrophys. J., 141, 1389, 1965. (P65–18543)Google Scholar
2. Beckmann, P. Radar backscatter from the surface of the Moon. J. geophys. Res., 70, 2345, 1965. (P65–20964; A65–34794)Google Scholar
3. Beckmann, P., Klemperer, W. K. Interpretation of the angular dependence of back-scattering from the Moon and Venus. J. Res. nat. Bur. Stand., 69D, 1671, 1965. (A66–20127; P66–13159)Google Scholar
4. Daniels, F. B. Radar determination of lunar slopes: correction for the diffuse component. J. geophys. Res., 68, 2864, 1963. (P64–2457) Google Scholar
5. Daniels, F. B. Radar reflections from a rough Moon described by a composite correlation function. J. geophys. Res., 68, 6251, 1963. (P64–13942)Google Scholar
6. Davis, J. R., Rohlfs, D. C. Lunar radio-reflection properties at decameter wavelengths. J. geophys. Res., 69, 3257, 1964. (P65–15828)Google Scholar
7. Davis, J. R., Rohlfa, D. C., Skaggs, G. A., Joss, J. W. Decameterwave radar studies of the lunar surface. J. Res. nat. Bur. Stand., 69D, 1661, 1965. (P66–13157; A66–20125)Google Scholar
8. Drake, F. Radio measurements of the Moon. p. 19–30 in ref. AS. (A66–35453)Google Scholar
9. Dyce, R. B., Pettengill, G. H. [430 Mc/s] Radar observation of the Moon and the four nearest planets using the Aredbo antenna. IEEE Northeast Electronics Res. Eng. Meeting, 17, 182, 1965.(P66–28581)Google Scholar
10. Evans, J. V., Hagfors, T. On the interpretation of radar reflections from the Moon. Icarus, 3, 151, 1964. (A64–28019)Google Scholar
11. Evans, J. V. Radar studies of the Moon. J. Res. nat. Bur. Stand., 69D, 1639, 1965. (P66–13156; A66–20124)Google Scholar
12. Fung, A. K., Moore, R. K. Effects of structure size on Moon and Earth radar returns at various angles. J. geophys. Res., 69, 1075, 1964. (P65–15830)Google Scholar
13. Fung, A. K. Theory of radar scatter from rough surfaces, bistatic and monostatic, with application to lunar radar return. J. geophys. Res., 69, 1063, 1964. (P65–14109)Google Scholar
14. Gary, B., Stacey, J., Drake, F. D. Radiometric mapping of the Moon at 3 millimeters wavelength. Astrophys. J. Suppl., 12, 239, 1965. (A66–20389)Google Scholar
15. Giraud, A. A note on the radio reflectivity of the lunar surface. J. Res. nat. Bur. Stand., 69D, 1679, 1965. (P66–13160; A66–20128)Google Scholar
16. Hagfors, T. Relationship of geometric optics and autocorrelation approaches to the analysis of lunar and planetary radar. J. geophys. Res., 71, 379, 1966. (P66–19068)Google Scholar
17. Hagfors, T., Brockelman, R. A., Danforth, H. H., Hanson, L. B., Hyde, G. M. Tenuous surface layer on the Moon: evidence derived from radar observations. Science, 150, 1153. 1965. (P66–9181; A66–13895)Google Scholar
18. Hagfors, T. Review of radar observations of the Moon. p. 229–39 in ref. A8. (A66–35449)Google Scholar
19. Hayre, H. S. Acoustic simulation of lunar echoes. J. geophys. Res., 70, 3831, 1965. (P65–30703; A65–33673)Google Scholar
20. Kamenakaya, S. A., et al. Observation of radio eclipses of the Moon at millimeter wavelengths. Izv. Vyssih Učeb. Zaved., Radiofiz., 8, 219, 1965. (P66–28576)Google Scholar
21. Katz, I. Wavelength dependence of the radar reflectivity of the Earth and the Moon. J. geophyt. Res., 71, 361, 1966. (P66–16169)Google Scholar
22. King, H. E., Jacobs, E., Stacey, J. M. A 2·8 arc-min beamwidth antenna – lunar eclipse observations at 3·2 mm. IEEE Transactions on Antennas and Propagation, AP–14, 82, 1966. (A66–22551)Google Scholar
23. Klemperer, W. K. Angular scattering law for the Moon at 6-meter wavelength. J. geophys. Res., 70, 3798, 1965. (A65–31280; P66–6069)Google Scholar
24. Kokurin, Y, L., Kurbasov, V. V., Lobanov, V. M., Mozhzherin, V. M., Sukhanovskii, A. N., Chernykh, N. S. Measurement of the distance to the Moon by optical radar. Zu. eksper. teor. Fiz. Pis'ma, 3, 219, 1966. (P66–28578)Google Scholar
25. Krotikov, V. D. Averaging effect of antenna radiation pattern in measurements of the radio emission of the Moon. Izv. Vyssih Učeb. Zaved., Radiofiz., 8, 453, 1965. (P66–28582; A65–36555)Google Scholar
26. Krotikov, V. D., Troitsky, V. S. Radio emission and nature of the Moon. Uspekhi Fiz. Nauk, 81, 589, 1963. (P64–29471)Google Scholar
27. Low, F. J., Davidson, A. W. Lunar observations at a wavelength of 1 millimeter. Astro-phys. J., 142, 1278, 1965. (P66–13162; A66–15290)Google Scholar
28. Lynn, V. L., Sohigian, M. D., Crocker, E. A. Radar observations of the Moon at a wavelength of 8·6 millimeters. J. geopkys. Res., 69, 781, 1964. (P65–15827)Google Scholar
29. Orszag, A. Moon distance measurement by laser, J. Res. not. Bur. Stand., 69D, 1683, 1965. (P66–13161; A66–20129)Google Scholar
30. Pettengill, G. Lunar radar reflections, p. 355–69 in Solar System Radio Astronomy, 1965, ed. by Aarons, J.. New York: Plenum Press. (A65–27036; P66–25146)Google Scholar
31. Plechkov, V. M. Observations of the lunar eclipse of 1964 June 25, at 1·8 cm. Astr. Zu., 43, 172, 1966. (P65–19066; A66–23507)Google Scholar
32. Rea, D. G., Hetherington, N., Mifflin, R. The analysis of radar echoes from the Moon. J. geophys. Res., 69, 5217, 1964. (P65–15829; A65–13509)Google Scholar
33. Rea, D. G., Hetherington, N., Mifflin, R. A note on ‘The analysis of radar echoes from the Moon’. J. geophys. Res., 70, 1565, 1965. (A65–22458; P65–24335)Google Scholar
34. Salomonovich, A. E. Measurements of lunar radio brightness distribution and certain properties of its surface layer. J. Res. nat. Bur. Stand., 69D, 1618, 1965. (P66–13155)Google Scholar
35. Staelin, D. H., Barrett, A. H., Kusse, B. R. Observations of Venus, the Sun, Moon, and Tau A at 1·18-cm wavelength. Astr. J., 69, 69, 1964. (P64–13959)Google Scholar
36. Taylor, G. N. Some curious anomalies in the Faraday rotation of lunar echoes. J. atmos. terr. Phys., 27, 118, 1965. (P6S–27802)Google Scholar
37. Thompson, T. W. Lunar mapping by coherent-pulse analysis. J. Res. nat. Bur. Stand., 69D, 1669, 1965. (P66–13158; A66–20126)Google Scholar
38. Troitsky, V. S. The radio emission of the eclipsed Moon. Astr. Zu., 42, 1296, 1965. (A66–19459; P66–9179)Google Scholar
39. Troitsky, V. S. Investigation of the surfaces of the Moon and planets by the thermal radiation. J. Res. nat. Bur. Stand., 69D, 1587, 1965. (P66–13154)Google Scholar
40. Weaver, H. The interpretation of thermal emission from the Moon. p. 295354 in Solar System Radio Astronomy, ed. Aarons, J.. New York: Plenum Press, 1965. (A65-Z7035; P66–16384)Google Scholar
41. Welch, W. J., Thornton, D. D., Winter, S. The variation of lunar radio emission during an eclipse. J. geophys. Res., 70, 2793, 1965. (P65–27801)Google Scholar
42. Yaplee, B. S., Knowles, S. H., Shapiro, A., Craig, K. J., Brouwer, D. The mean distance to the Moon as determined by radar. Bull. astr., 25, 81, 1965. (P65–30705)Google Scholar
43. Kislyakov, A. G., Salomonovich, A. E. Radiofizika, 6, No. 3, 431, 1963. (P66–9179; A66–19459)Google Scholar
44. Gol'nev, V. I., Soboleva, N. S. Izv. glav. astr. Obs. Pulkove, 23, No. 172, issue 3; 8386, 1964.Google Scholar
45. Grasjuk, A. Z., et al. Dokl. Akad. Nauk SSSR, 154, 1303, 1964.Google Scholar
46. Kokurin, Y. L., et al. Kosmicheskie-Issledovania, 4, issue 3, 412, 1966.Google Scholar
47. Mayer, C. H. Thermal radio radiation from the Moon and planets. IEEE Trans. Military Electr., Mil–8, 236, 1964. (P65–7630; A64–28200)Google Scholar
48. Seling, T. V. Observations of total eclipses of the Moon at a wavelength of 1·82 cm. J. geophys. Res., 71, 3339, 1966. (P66–35301)Google Scholar
1. Brock, B. B. Lunar and terrestrial structural models on a common sphere, p. 617–30 in ref. A3. (A65–34241)Google Scholar
2. Dietz, R. S. Astroblemes, lunar craters, and maria. p. 895–6 in ref. A3. (A65–34257)Google Scholar
3. Diggelen J., van The linear network of lunar surface features. Bull. astr. Inst. Netherl., 18, 311, 1966. (A66–38637)Google Scholar
4. Fielder, G. Astrogeology-lunar geology. Earth-Science Rev., 1, 231, 1966.Google Scholar
5. Geyer, R. A., Van Lopik, J. R. Use of geophysical measurements in lunar surface analysis. p. 1160–74 in ref. A3. (A65–34272)Google Scholar
6. Heacock, R. L. Ranger block III. p. 7–34 in ref. Ba5. (N66–25047)Google Scholar
7. Khodak, Y. A. Principal structural elements of the Moon and the significance of the geographic-geological approach, p. 641–55 in ref. A3. (A65–34243)Google Scholar
8. Kopal, Z. Topography of the Moon. Space Sci. Rev., 4, 737, 1965. (A66–18265)Google Scholar
9. Krejci-Graf, K. Interpretation of lunar surface features, p. 751–5 in ref. A3. (A65–34249)Google Scholar
10. Kuiper, G. P., Strom, R. G., Le Poole, R. S. Interpretation of the Ranger records. p. 35–248 in ref. 835. (N66–25048)Google Scholar
11. McCauley, J. F. The nature of the lunar surface as determined by systematic geologic mapping, in The Mantles of the Earth and Terrestrial Planets, John Wiley and Sons (in press).Google Scholar
12. Moore, H. J. Cohesion of material on the lunar surface, p, 263–270 in ref. Ba5. (N66–25050)Google Scholar
13. O'Keefe, J. A. The Moon. p. 63167 in Introduction to Space Science, ed. by Hess, W. N.. New York, Gordon and Breach Science Publishers, 1965. (A66–15758)Google Scholar
14. Rae, W. L. Lunar domes. J. Brit. astr. Assoc, 76, 319, 1966. (A66–41209)Google Scholar
15. Shoemaker, E. M. Lunar patterned ground, p. 275–84 in ref. Ba5. (N66–25052)Google Scholar
16. Urey, H. C. Observations on the Ranger VIII and IX pictures, p. 339–62 in ref. Ba5. (N 66–25 060)Google Scholar
17. Whitaker, E. A. The surface of the Moon. p. 79–98 in ref. A8. (A66–35440)Google Scholar
1. Allen, D. A. The lunar crater Caramuel. J. Brit. astr. Assoc, 76, 248, 1966. (A66–35245)Google Scholar
2. Baldwin, R. B. The origin of lunar features, p. 543–546 in ref. A3. (A65–34237)Google Scholar
3. Baldwin, R. B. The crater diameter-depth relationship from Ranger VII photographs. Astr. J., 70, 545, 1965. (P66–6066; A66–12186)Google Scholar
4. Boneff, N. The origin of the lunar craters, p. 524 in ref. A3.Google Scholar
5. Brinkmann, Robert T. Lunar crater distribution from the Ranger VII photographs. J. geophys. Res., 71, 340, 1966. (A66–19417)Google Scholar
6. Bülow, K. von The central problem of selenogeology. Scientia, 100, 5, 1965. (A65–27715)Google Scholar
7. Byron, J. F. Distribution of lunar craters. Observatory, 86, 31, 1966. (A66–24033)Google Scholar
8. Carr, M. H. The structure and texture of the floor of Alphonsus. p. 270–5 in ref. Ba5. (N66–25051)Google Scholar
9. Chapman, R. G., Fielder, G. On the central peaks of lunar craters. Observatory, 84, 23, 1964. (P64–23893)Google Scholar
10. Currie, K. L. Analogues of lunar craters on the Canadian shield, p. 915–940 in ref. A3. (A65–34259)Google Scholar
11. Danes, Z. F. Rebound processes in large craters, p. 81–99 in ref. A7a.Google Scholar
12. Dodd, R. T., Smalley, V. G., Salisbury, J. W., Adler, J. E. M. Crater frequency evidence for volcanism in the lunar highlands, p. 555–61 in ref. A3. (A65–34238)Google Scholar
13. Fielder, G. Distribution of craters on the lunar surface. Mon, Not. R. astr. Soc, 129, 351, 1965. (P65–27803; A65–31182)Google Scholar
14. Fielder, G. Tests for randomness in the distribution of lunar craters. Mon. Not. R. astr. Soc., 132, 413, 1966. (P66–28584)Google Scholar
15. Ford, B. J. Origin of the lunar craters. Spacefiight, 7, 13, 1965. (A65–15637)Google Scholar
16. Gault, D. E., Quaide, W. L., Oberbeck, V. R. Interpreting Ranger photographs from impact cratering studies, p. 125–40 in ref. A8. (A66–35443)Google Scholar
17. Green, J. Interpretation of Ranger VII photographs, p. 999–1002 in ref. A3. (A65–34262)Google Scholar
18. Green, J. The Moon's surface. Int'l. Sci. and Tech. p. 5962, 64, 66, 67, 82, 84, Sept. 1966. (A66–40398)Google Scholar
19. Hartmann, W. K. On the distribution of lunar crater diameters. Comm. Lunar Planet. Lab., 2, 197, 1964. (A65–23263)Google Scholar
20. Hartmann, W. K. Secular changes in meteoritic flux through the history of the solar system. Icarus, 4, 207, 1965. (A65–26048)Google Scholar
21. Hartmann, W. K. Early lunar cratering. Icarus, 5, 406, 1966. (P66–32298; A66–38026)Google Scholar
22. Kopal, Z. The nature of secondary craters photographed by Ranger VII. Icarus, 5, 201, 1966. (P66–25151; A66–29265)Google Scholar
23. Kopal, Z. The nature of secondary craters photographed by Ranger VII. Boeing Math. Note No. 430. 42 p., 1965. (N66–14550)Google Scholar
24. Kvíz, Z. On the central peak in lunar craters. Bull. astr. Inst. Csl., 15, 227, 1964. (A65–15341)Google Scholar
25. Levin, B. J. The modern form of the impact hypothesis of lunar relief formation. Proc. XIIIth Internat. Astronautical Congress, Wien: Springer-Verlag, 1964, I, p. 1120. (P65–13740)Google Scholar
26. Marcus, A. A stochastic model of the formation and survival of lunar craters. I –Distribution of diameter of clean craters. Icarus, 3, 460, 1964. (A65–17766)Google Scholar
27. Marcus, A. A stochastic model of the formation and survival of lunar craters. II – Approximate distribution of diameter of all observable craters, Icarus, 5, 165, 1966, (A66–29262)Google Scholar
28. Marcus, A. A stochastic model of the formation and survival of lunar craters. III – Filling and disappearance of craters. Icarus, 5, 178, 1966. (A66–29263)Google Scholar
29. Marcus, A. A stochastic model of the formation and survival of lunar craters. IV –On the nonrandomness of crater centers. Icarus, 5, 190, 1966. (A66–29264)Google Scholar
30. McCall, G. J. H. The caldera analogy in selenology, p. 843–75 in ref A3. (A65–34256)Google Scholar
31. McCauley, J. F. Intermediate-scale geologic map of a part of the floor of Alphonsus. p. 313–19 in ref. Ba5. (N66–25056)Google Scholar
32. Miller, B. P. Distribution of small lunar craters based on Ranger VII photographs. J. geophys. Res., 70, 2265, 1965. (P65–24333; A65–25018)Google Scholar
33. Moore, P. The lunar crater Caramuel. J. Brit. astr. Assoc., 75, 142, 1965. (P66–6061)Google Scholar
34. Pohn, H. A. New measurements of steep lunar slopes. Publ. astr. Soc. Pacif., 75, 186, 1963. (P64–7975)Google Scholar
35. Quaide, W. L., Gault, D. E., Schmidt, R. A. Gravitative effects on lunar impact structures, p. 563–72 in ref. A8. (A65–34239)Google Scholar
36. Roberts, W. A. Permanent angular displacement and ejecta-induced impulse associated with crater formation. Icarus, 4, 480, 1965. (A66–19260)Google Scholar
37. Ronca, L. B. Structure of the crater Alphonsus. Nature, 209, 182, 1966. (A66–20397)Google Scholar
38. Ronca, L. B., Salisbury, J. W. Lunar history as suggested by the circularity index of lunar craters. Icarus, 5, 130, 1966. (P66–25147)Google Scholar
39. Safronov, V. S. The sizes of the largest bodies which fell on planets during their formation. Astr. Zu., 42, 1270, 1965. (P66–9183)Google Scholar
40. Shoemaker, E. When the irresistible force meets the immovable object. Engr, Sci., 29, 11, 1966. (A66–24199)Google Scholar
41. Shteinberg, G. S. Inapplicability of Baldwin's relation for determining the causes of the formation of lunar craters. Dokl. Akad. Nauk SSSR, 165, 55, 1965. (A66–15332)Google Scholar
42. Smalley, V. G. The lunar crater Dionysius. Icarus, 4, 433, 1965. (A65–35371)Google Scholar
43. Smalley, V. G., Ronca, L. B. Structures inside a lunar crater photographed by Ranger VII. Nature, 208, 930, 1965. (P66–16387; A66–17456)Google Scholar
44. Smith, R. L. Terrestrial calderas, associated pyroclastic deposits, and possible lunar applications, p. 241–57 in ref. A8. (A66–35450)Google Scholar
45. Tazieff, H. Convective origin of lunar craters, p. 526–7 in ref. A3. (A65–34235)Google Scholar
46. Trask, N. J. Size and spatial distribution of craters estimated from the Ranger photographs, p. 252–63 in ref. Ba5. (N66–25049)Google Scholar
47. Trask, N. J. Distribution of lunar craters according to morphology from Ranger VIII and IX photographs, Icarus, 6, 270, 1967.Google Scholar
48. Markov, A. V. The relative depths of lunar ring mountains and craters in Mare Nubium. Dokl. Akad. Nauk SSSR, 167, 63, 1966. (A66–27182)Google Scholar
1. Dauvillier, A. Paleovolcanic origins of the lunar seas. p. 516–23 in ref. A3. (A65–34234)Google Scholar
2. Jaffe, L. D. Lunar dust depth in Mare Cognitum. J. geophys. Res., 71, 1095, 1966. (A66–22571)Google Scholar
3. Jaeger, R. M., Schuring, D. J. Spectrum analysis of terrain of Mare Cognitum. J. geophys. Res., 71, 2023, 1966. (A66–28336)Google Scholar
4. Kopal, Z. On the possible origin of the lunar maria. Nature, 210, 188, 1966. (A66–27900)Google Scholar
5. Losovskii, B. Y., Salomonovich, A. E. The radio emission and differences in the upper layer of ‘maria’ and ‘continental’ regions of the Moon. Astr. Zu., 43, 390, 1965. (P65–27796; A65–26229)Google Scholar
6. Miyamoto, S. Maria surface of the Moon. J. Internal, Lunar Soc., 2, 132, 1964. (A66–12455)Google Scholar
7. Moore, P. Origin of the lunar maria. Nature, 210, 1347, 1966, (P66–32297)Google Scholar
8. Quaide, W. Rills, ridges, and domes-clues to maria history. Icarus, 4, 374, 1965. (P66–6067; A65–35362)Google Scholar
9. Ronca, L. B. A geological model of Mare Humorum. Icarus, 4, 390, 1965. (A65–35363)Google Scholar
10. Salisbury, J. W., Smalley, V. G., Ronca, L. B. Origin of linear elements on Mare Humorum. Nature, 206, 385, 1965. (A65–24360)Google Scholar
11. Shoemaker, E. M. Preliminary analysis of the fine structure of the lunar surface in Mare Cognitum. p. 23–77 in ref. A8. (A66–35439)Google Scholar
12. Shoemaker, E. M. Preliminary analysis of the fine structure of the lunar surface in Mare Cognitum. p. 75–134 in ref. Ba2.Google Scholar
13. Shoemaker, E. M. Geology of Mare Tranquillitatis as shown in the high-resolution Ranger VIII photographs, p. 327–32 in ref. Ba5. (N66–25058)Google Scholar
1. Alter, D. The faint ray systems, p. 768–75 in ref. A3. (A65–34251)Google Scholar
2. Bülow, K. von The riddle of the ‘bright rays’. Sterne und Weltraum, 5, 43, 1966. (A66–22770)Google Scholar
3. Carr, M. H. Dark volcanic materials and rille complexes in the north central region of the Moon. p. 35–43 in ref. A7a.Google Scholar
4. Rackham, T. W. A note on lunar ray systems. Icarus, 4, 544, 1965. (P66–25152; A66–19265)Google Scholar
5. Hartmann, W. K. Radial structures surrounding lunar basins. II– Orientale and other systems – Conclusions. Comm. Lunar Planet. Lab., 2, 175, 1964. (A65–23261)Google Scholar
1. Azmon, E. Melting temperature of complex silicates, p. 481–94 in ref. A3. (A65–34232)Google Scholar
2. Berg, C. A. Lunar erosion and Brownian motion. Nature, 204, 461, 1964, (P65–4627; A65–11379)Google Scholar
3. Cameron, A. G. W., Schneck, P. B. Density of matter assembled from randomly incident particles. Icarus, 4, 396, 1965. (P66–6062; A65–35360)Google Scholar
4. Elston, W. E. Rhyolite ash-flow plateaus, ring-dike complexes, calderas, lopoliths, and Moon craters, p. 817–41 in ref. A3. (A65–34255)Google Scholar
5. Fielder, G. Erosion and deposition on the Moon. Planet. Space Sci., 11, 1335, 1963. (P64–7976)Google Scholar
6. Fielder, G. Strike-slip faulting in the Vaporum region of the Moon. Quart. J. geol. Soc. Lond., 120, 275, 1964 Google Scholar
7. Gehrels, T. A model of the lunar surface. Icarus, 3, 491, 1964. (A65–17770)Google Scholar
8. Gehrels, T. Some comments on Hapke's comments. Icarus, 5, 160, 1966. (P66–25149)Google Scholar
9. Gehrels, T. Problems of the lunar surface texture in connection with cometary particles. Mém. Soc. Roy. Liège, 12, 481, 1966. (P66–28586)Google Scholar
10. Gilvarry, J. J. Evidence for the pristine presence of a lunar hydrosphere. Publ. astr. Soc. Pacif., 76, 245, 1964. (P65–10165)Google Scholar
11. Gilvarry, J. J. Observability of indigenous organic matter on the Moon. Icarus, 5, 228, 1966. (P66–28500)Google Scholar
12. Glaser, P. E., Wechsler, A. E. Small-scale structure of the lunar surface. Icarus, 4, 104, 1965. (A65–23490; P65–27797)Google Scholar
13. Glaser, P. E., Wechsler, A. E., Germeles, A. E. Thermal properties of postulated lunar surface materials, p. 656–70 in ref. A3. (A65–34244)Google Scholar
14. Glaser, P. E. Implications of high vacuum on the characteristics of the lunar surface. J. Vacuum Sci. Technol., 3, 181, 1966. (P66–32300)Google Scholar
15. Gold, T. Ranger Moon pictures: implications. Science, 145, 1046, 1964. (A64–24799; P65–7629)Google Scholar
16. Gold, T. Structure of the Moon's surface, p, 345–53 in ref. A1. (A64–26073)Google Scholar
17. Gold, T. The Moon's surface, p, 107–21 in ref. A8. (A66–35442)Google Scholar
18. Green, J. Selection of rock standards for lunar research, p. 1123–47 in ref. A3. (A65–34270)Google Scholar
19. Halajian, J. D. The case for a cohesive lunar surface model, p. 671–710 in ref. A3. (A65–34245)Google Scholar
20. Halajian, J. D., Spagnolo, F. A. Photometric measurements of simulated lunar surfaces. Grumman Res. Dept. Mem. RM–308, 88 p, Jan. 1966.Google Scholar
21. Halajian, J. D. Mechanical, optical, thermal, and electrical properties of the Surveyor I landing site. Grumman Aircraft Eng. Report No. AS 424–4, 32 p., Nov. 1966.Google Scholar
22. Hämeen-Anttila, K. A. A statistical model for the microstructure of the lunar surface. Ann. Acad. Sci. Fennicae A VI, 24 p., 1963.Google Scholar
23. Hapke, B. W. Photometric and other laboratory studies relating to the lunar surface, p. 323–44 of ref. A1. (A64–26072)Google Scholar
24. Hapke, B. W., Packing properties of fine powders and the depth of the lunar dust layer. J. geophys. Res., 69, 1147, 1964. (A64–15732; P65–17831)Google Scholar
25. Hapke, B. W., Goldberg, L. Molecular flow through soils and the possibility of lunar permafrost layers. Trans. Amer. geophys. Un., 46, 139, 1965.Google Scholar
26. Hapke, B. W. Effects of a simulated solar wind on the photometric properties of rocks and powders, p. 711–21 in ref. A3. (A65–34246)Google Scholar
27. Hapke, B. W. Optical properties of the Moon's surface, p. 19–30 in ref, A8. (A66–35444)Google Scholar
28. Hapke, B. W. Some critical comments on Gehrels’ model of the lunar surface. Icarus, 5, 154, 1966. (P66–25148; A66–29260)Google Scholar
29. Jaffe, L. D. Depth of the lunar dust. J. geophys. Res., 70, 6129, 1965. (A66–16783)Google Scholar
30. Jaffe, L. D. Strength of the lunar dust. J. geophys. Res., 70, 6139, 1965. (A66–16784)Google Scholar
31. Jaffe, L. D. Bearing strength of ‘Fairy Castle’ structures, J. geophys. Res., 70, 6268, 1965. (A66–16788)Google Scholar
32. Jaffe, L. D., Scott, R. F. Lunar surface strength – implications of Luna 9, Science, 153, 407, 1966. (A66–40518)Google Scholar
33. Johnson, R. W. Environmental test criteria for lunar and planetary soils. Astr. Acta, 11, 252, 1965. (A66–28179)Google Scholar
34. Kapp, R. O. A fourth state of matter on the surface of the Moon? Space/Aeronautics, 45, 132, 134, 136, 138, 140, 1966. (A66–20173)Google Scholar
35. Kraner, H. W., Schroeder, G. L., Davidson, G., Carpenter, J. W. Radioactivity of the lunar surface. Science, 152, 1235, 1966. (A66–32942; P66–28588)Google Scholar
36. Levin, B. Y. Nature of the lunar surface layer. Astr. Zu., 40, 1071, 1963. (P65–4624)Google Scholar
37. Martin, J. J. Scattering from the Moon and other rough surfaces, J. geophys. Res., 71, 2687, 1966. (P66–25154)Google Scholar
38. Matveyev, Y. G., Suchkin, G. L., Troitsky, V. S. Density variations of lunar matter with depth in the surface layer. Astr. Zu., 42, 810, 1965. (P65–33927; A66–10274)Google Scholar
39. Miyamoto, S. Morphological aspects of the lunar crust. Icarus, 3, 486, 1964. (A65–17769)Google Scholar
40. Miyamoto, S. Morphological aspects of the lunar crust. II. Icarus, 4, 421, 1965. (A65–35368)Google Scholar
41. Miyamoto, S. Morphological features of the libratory region of the Moon. p. 776–96 in ref. A3. (A65–34252)Google Scholar
42. Naughton, J. J., Barnes, I. L., Hammond, D. A. Rock degradation by alkali metals–a possible lunar erosion mechanism. Science, 149, 630, 1965. (A65–33343)Google Scholar
43. O'Keefe, J. A. Lunar ash flows, p. 264–6 in ref. A8. (A66–35451)Google Scholar
44. Orlova, N. S. Characteristic light-scattering curves for certain magmatic rocks. Trudy astr. Obs. Leningrad, gos. Univ., 21, 74, 1964. (A65-Z5693)Google Scholar
45. Petrova, N. N. Spectral investigations of the lunar surface. Astr. Zu., 43, 162, 1966. (A66–23506; P66–19065)Google Scholar
46. Ringwood, A. E. Chemical evolution of the terrestrial planets. Geochim. Cosmochim. Acta, 30, 41, 1966. (A66–19075)Google Scholar
47. Ruskol, E. L. Physical properties of the lunar surface. Kosmichcskie Issledovaniya, 3, 395, 1965. (P65–22068; A65–35809)Google Scholar
48. Sagan, C. Photometric properties of Mercury. Astrophys. J., 144, 1218, 1966.Google Scholar
49. Shoemaker, E. M. Progress in the analysis of the fine structure and geology of the lunar surface from the Ranger VIII and IX photographs, p. 30–1 in ref, A9. (N66–31449)Google Scholar
50. Smoluchowski, R. Radiation sintering of lunar dust. Science, 150, 1025, 1965. (P66–13167; A66–13338)Google Scholar
51. Smoluchowski, R. Structure and coherency of the lunar dust layer. J. geophys. Res. 71, 1569, 1966. (A66–24892; P66–22069)Google Scholar
52. Urey, H. C. ‘Dust’ on the Moon. Science, 153, 1419, 1966. (A66–41309)Google Scholar
53. Walker, E. H. Comments on the photographs obtained by Ranger VII. Astronautyka, 8, 3, 1965. (A65–24419)Google Scholar
54. Wechsler, A. E., Glaser, P. E. Pressure effects on postulated lunar materials. Icarus, 4, 335, 1965. (A65–35359; P66–6063)Google Scholar
55. Werner, M., Gold, T., Harwit, M. On the detection of water on the Moon. Cornell-Sydney University Astronomy Center Report No. 44, 16 p., July 1966.Google Scholar
1. Adams, E. Origin of lunar tektites. Raumfahrtforschung, 10, 105, 1966. (A66–38059)Google Scholar
2. Deák, G., Erdösi, K., Füredi, M., Hédervári, P., Sugár, I. Some energetical calculations regarding the recent volcanic phenomena of the Moon. Gerlands Beiträge zur Geophysik, 75, 122, 1966. (A66–34099)Google Scholar
3. Dietz, R. S., Holden, J. C. Earth and Moon – tectonically contrasting realms, p. 631–40 in ref. A3. (A65–34242)Google Scholar
4. Dobar, W. I. Behavior of lava on the lunar surface, p. 495–515 in ref, A3. (A65–34233)Google Scholar
5. Dobar, W. I. Simulated basalt and granite magma upwelled in vacuum. Icarus, 5, 399, 1966. (A66–38025)Google Scholar
6. Gilvarry, J. J. The lunar origin of tektites. Icarus, 4, 317, 1965. (A65–29112)Google Scholar
7. Gilvarry, J. J. The lunar origin of tektites. p. 1061–81 in ref. A3. (A65–34267)Google Scholar
8. Gold, T. Outgassing processes on the Moon and Venus, p. 24955 in The Origin and Evolution of Atmospheres and Oceans, Eds. Brancazio, P. J., Cameron, A. G. W. New York, John Wiley and Sons, 1964. (A65–33298)Google Scholar
9. Green, J. Tidal and gravity effects intensifying lunar defluidization and volcanism. p. 403–69 in ref. A3, (A65–34230)Google Scholar
10. Kozyrev, N. Volcanic phenomena on the Moon. Nature, 198, 979, 1963. (P64–4883)Google Scholar
11. Kuiper, G. P. Volcanic sublimates on Earth and Moon. Comm. Lunar Planet. Lab., 3, 33, 1965. (A66–11500)Google Scholar
12. Middlehurst, B. M. Transient lunar events: possible causes. Nature, 209, 602, 1966. (P66–25155)Google Scholar
13. Middlehurst, B. M., Burley, J. M. Chronological listing of lunar events. NASA–TM–X–55470. Apr. 1966, 46 p. (N66–24927)Google Scholar
14. Mills, A. A. Tektites – their nature and possible origin. J. Brit. astr. Assoc., 76, 73, 1966. (A66–27823)Google Scholar
15. Moore, P. An evaluation of the reported lunar changes, p. 797–810 in ref. A3. (A65–34253)Google Scholar
16. O'Keefe, J. A. Interpretation of Ranger photographs. Science, 146, 514, 1964. (P65–4622)Google Scholar
17. O'Keefe, J. A. Tektites and impact fragments from the Moon. Sci. American, 210, 50, 1964. (P65–4645)Google Scholar
18. O'Keefe, J. A., Adams, E. W. Tektite structure and lunar ash flows. J. geophys. Res., 70, 3819, 1965. (A65–32671)Google Scholar
19. O'Keefe, J. A., Lowman, P. D. Jr. Tektites as a guide to the structure of the Moon. Tectonophysics, 2, 319, 1965.Google Scholar
20. O'Keefe, J. A., Adler, I. Lunar structure as deduced from Muong Nong Tektites. p. 92–101 in ref. A9. (N66–31456)Google Scholar
21. Simpson, J. F. Evidence for the volcanic origin of lunar and Martian craters. Earth Planet. Sci. Letters, 1, 130, 1966. (A66–33625)Google Scholar
22. Simpson, J. F. Additional evidence for the volcanic origin of lunar and Martian craters. Earth Planet. Sci. Letters, 1, 132, 1966. (A66–33626)Google Scholar
23. Vonnegut, B., McConnell, R. K. Jr., Allen, R. V. Evaporation of lava and its condensation from the vapour phase in terrestrial and lunar volcanism. Nature, 209, 445, 1966. (A66–21288)Google Scholar
24. Menzel, D. H. The surfaces of the Moon, Mars, and Venus. In ref. A14.Google Scholar
1. Anand, S. P. S., Oster, L., Sofia, S. Excitation of lunar luminescence by solar protons. Nature, 202, 1097, 1964. (P65–20965)Google Scholar
2. Brzostkiewicz, S. R. Luminescence of the lunar surface. Urania, 36, 166, 1965. (A65–27709)Google Scholar
3. Burley, J., Middlehurst, B. M. Apparent lunar activity: historical review. Proc. nat. Acad. Sci., 55, 1007, 1966. (P66–28589)Google Scholar
4. Cohen, A. J. Source of evolution of gas from the lunar crater Alphonsus. Nature, 201, 1015, 1964. (A65–15141)CrossRefGoogle Scholar
5. Derham, C. J., Geake, J. E. Luminescence of meteorites. Nature, 201, 62, 1964. (P64–23892)Google Scholar
6. Flamm, E. J., Lingenfelter, R. E. Lunar luminescence. Nature, 205, 1301, 1965. (P66–9180)Google Scholar
7. Geake, J. E. Lunar luminescence. Nature, 204, 866, 1964. (P65–13738; A65–13535)Google Scholar
8. Greenacre, J. C. The 1963 Aristarchus events, p. 811–5, in ref. A3. (A65–34254)Google Scholar
9. Kopal, Z., Rackham, T. W. Excitation of lunar luminescence by solar flares. Nature, 201, 239, 1964. (A64–14148; P64–23891)Google Scholar
10. Kopal, Z., Rackham, T. W. Excitation of lunar luminescence by solar activity. Icarus, 2, 481, 1963. (P65–7627)Google Scholar
11. Kopal, Z. Luminescence on the lunar surface. Sterne und Weltraum, 5, 56, 1966. (A66–23943)Google Scholar
12. Kopal, Z. Luminescence of the Moon and solar activity, p. 173–83 in ref. A8. (A66–35446)Google Scholar
13. Ney, E. P., Woolf, N. J., Collins, R. J. Mechanisms for lunar luminescence. J. geophys. Res., 71, 1787, 1966. (P66–22070)CrossRefGoogle Scholar
14. Righini, A. Jr., Rigutti, M. Some results of research on lunar luminescence. Icarus, 5, 258, 1966. (P66–28587)Google Scholar
15. Sanduleak, N., Stock, J. Indication of luminescence found in the 1964 December lunar eclipse. Publ. astr. Soc. Pacif., 77, 237, 1965. (P66–16385; A66–30644)Google Scholar
16. Scarfe, C. D. Observations of lunar luminescence at visual wavelengths. Mon. Not. R. astr. Soc., 130, 19, 1965. (P65–33928)Google Scholar
17. Schutten, J., Dijk T., Van Luminescence caused by proton impact with special reference to the lunar surface. Nature, 211, 470, 1966. (P66–32301)Google Scholar
18. Wildey, R. L. Lunar luminescence. Publ. astr. Soc. Pacif., 76, 112, 1964. (P64–29424)CrossRefGoogle Scholar
19. Geake, J. E., Walker, G. The luminescence spectra of meteorites. Geochim. Cosmochim. Acta, 30, 929, 1966. (A66–42363)Google Scholar
20. Moore, P. Color events on the Moon. Sky and Tel., 33, 27, 1967.Google Scholar
1. Aronowitz, L., Milford, S. N. Magnetic shielding of the lunar surface from the solar wind as a function of lunar magnetic moment. J. geophys. Res., 70, 227, 1965. (A65–15054)Google Scholar
2. Biswas, M. M., Majumdar, D. P. Expected variations of cosmic-ray intensity on the Moon. Nuovo Cimento, 36, 1039, 1965. (P65–18541)CrossRefGoogle Scholar
3. Bowen, E. G. Lunar and planetary tails in the solar wind. J. geophys. Res., 69, 4969, 1964. (P65–15834)Google Scholar
4. Cameron, A. G. W. Particle acceleration in cislunar space. Nature, 202, 785, 1964. (P65–24337)Google Scholar
5. Hayakawa, S. High-energy radiations from the planets and the Moon. p. 298311 in Space Exploration and the Solar System, New York, Academic Press, 1964. (P65–24331; A65–26915)Google Scholar
6. Hayakawa, S. [Estimate of] Lunar X-rays excited by energetic terrestrial electrons, Rep. Ionosphere, Space Res. Japan, 19, 375, 1965. (P66–16386)Google Scholar
7. Haymes, R. C. Juday, R. D. Detectability of lunar X-rays. Planet. Space Sci., 13, 1249, 1965. (P66–13163; A66–20885)Google Scholar
8. Hinton, F. L., Taeusch, D. R. Variation of the lunar atmosphere with strength of the solar wind. J. geophys. Res., 69, 1341, 1964. (P65–15832)Google Scholar
9. Michel, F. C. Interaction between the solar wind and the lunar atmosphere. Planet. Space Sci., 12, 1075, 1964. (P65–4628; A65–13344)Google Scholar
10. Osborne, F. J. F., Bachynski, M. P. On a possible lunar magnetospheric configuration, J. geophys. Res., 70, 4983, 1965. (P66–6064)Google Scholar
11. Palm, A., Silver, S. On observations of lunar magnetic storms. Planet. Space Sci., 12, 649, 1964. (P64–29433)Google Scholar
12. Safronov, V. S., Rouskol, E. L. The history of the lunar atmosphere and possibility of the presence of ice and organic compounds on the Moon. p. 4253 in Proc. XIIIth Int. Astronautical Congress, Wien, Springer-Verlag, 1964. (P65–13737)Google Scholar
13. Singer, S. F. Atmosphere near the Moon. Astronautical Sci., 8, 531, 1963. (P64–13916)Google Scholar
14. Wehner, G. K., Kenknight, C. E., Rosenberg, D. Modification of the lunar surface by the solar-wind bombardment. Planet. Space Sci., 11, 1257, 1963, (F64–7975)Google Scholar
15. Vernov, S. N., et al. Measurement of the intensity of penetrating radiation on the surface of the Moon. Dokl. Akad. Nauk SSSR, 169, 1044, 1966. (A66–41410)Google Scholar
1. Anderson, D. L., Kovach, R. L. The internal structure of the Moon and the terrestrial planets, p. 84–91 in ref. A9. (N66–31455)Google Scholar
2. Caputo, M. On the shape, gravity field, and strength of the Moon. J. geophys. Res., 70, 3993, 1965. (P65–30704)Google Scholar
3. Carton, D., Davidson, M., Goudas, C. L., Kopal, Z., Stoddard, L. G. Lunar profiles determined from annular solar eclipses of 1962 and 1963. Icarus, 5, 334, 1966. (P66–32295)Google Scholar
4. Clegg, P. E., Bastin, J. A., Gear, A. E. Heat transfer in lunar rock. Mon. Not. R. astr. Soc., 133, 63, 1966. (A66–37260)Google Scholar
5. Davidson, M., Goudas, C. L., Kopal, Z. Lunar profiles determined from annular solar eclipses of 1962 and 1963. Boeing Document D1–82–0470, 73 p., 1966.Google Scholar
6. Eckert, W. J. On the motions of the perigee and node and the distribution of mass in the Moon. Astr. J., 70, 787, 1965. (P66–13165; A66–19352)Google Scholar
7. Enzmann, R. Balance of endogenic to exogenic energy in the crust of the Moon. p., 533–542; in ref. A3. (A65–34236)Google Scholar
8. Fielder, G. A case for convection in the Moon. Nature, 204, 171, 1964. (P65–18543; A65–10368)Google Scholar
9. Fielder, G. Convection in the Moon —a boundary condition. Geophys. J., 10, 437, 1966. (A66–33235)Google Scholar
10. Goudas, C. L. The nonhomogeneity of the Moon. Icarus, 4, 218, 1965. (P65–27800)Google Scholar
11. Goudas, C. L. Note on ‘Shape and Internal Structure of the Moon’ by Lamar and McGann, Icarus, 5, 99, 1966. (P66–19063; A66–21210)Google Scholar
12. Goudas, C. L. The figure and gravity field of the Moon. p. 27151 in Advances in Astronomy and Astrophysics, 4, ed. Kopal, Z.. New York, Academic Press, 1966. (A66–38822)Google Scholar
13. Goudas, C. L., Kopal, Z., Kopal, Z. The shape of the Moon as deduced from the Orbiter determination of its field. Boeing Document D1–82–0570, 1966,Google Scholar
14. Kopal, Z. Stress history of the Moon and of terrestrial planets. Icarus, 2, 376, 1963. (P65–7631; A64–16486)Google Scholar
15. Kopal, Z. Radiative transport of heat in lunar and planetary interiors. Icarus, 3, 8, 1964. (P65–20967)Google Scholar
16. Kopal, Z. Effects of thermal expansion on the moments of inertia of the Moon. Icarus, 4, 166, 1965. (P65–27798)Google Scholar
17. Kopal, Z. Possible effects of convection on lunar moments of inertia. Icarus, 4, 173, 1965. (P65–27799)Google Scholar
18. Kopal, Z. Internal structure of the Moon. Boeing Sci. Res, Lab. Math. Note, No. 426, 1965. (N66–15700)Google Scholar
19. Kovach, R. L., Carr, R. E. Free oscillations of the Moon and observations by a long-period seismograph system. Proc. of the XIIIth Internat. Astronautical Congress, Wien, Springer-Verlag, I, 110, 1964. (P65–13736)Google Scholar
20. Lamar, D. L., McGann, J. Shape and internal structure of the Moon. Icarus, 5, 10, 1966. (P66–19062; A66–21203)Google Scholar
21. Lamar, D. L., McGann, J. Reply to ‘Note on the Shape and Internal Structure of the Moon’ by C. L. Goudas. Icarus, 5, 101, 1966. (P66–19064)Google Scholar
22. Levin, B. J., Thermal history of the Moon and the development of its surface, p. 271–273 in ref. A8. (A66–35452)Google Scholar
23. Levin, B. J. The structure of the Moon. Astr. Zu., 43, 606, 1966. (P66–28579; A66–37038)Google Scholar
24. Levin, B. J. The structure of the Moon. p. 61–76 in ref. A9. (N66–31453)Google Scholar
25. MacDonald, G. J. F. On the internal constitution and origin of the Moon. p. 77 in ref. A9. (N66–31454)Google Scholar
26. Mikhailov, A. A. Gravity force and configuration of the Moon. Astr. Zu., 42, 1062, 1965. (A66–12918)Google Scholar
27. Ornatskaia, O. L., Al'ber, I. I. Thermal history of the Moon. Radiofizika, 9, 615, 1966. (A66–37151)Google Scholar
28. Walter, L. S. Lunar differentiation processes, p, 470–80 in ref. A3. (A65–34231)Google Scholar
29. Wildey, R. L. Measuring the shape of the Moon. Sky and Tel., 31, 147, 1966. (A66–22964)Google Scholar
30. Zharkov, V. N., Berikashvili, V. S., Osnach, A. I. Geophysical problems and investigations of the Moon (a review). Astr. Zu., 43, 622, 1966. (P66–28580)Google Scholar
32. Levin, B. J. Astr. Zirk., No. 285, 1964; Nature, 202, 1201, 1964.Google Scholar
33. Levin, B. J. Proc. Lunar Meeting Roy. Soc, June 1965 (in press).Google Scholar
34. Safronov, V. S. Icarus (in press).Google Scholar
35. Majeva, S. V. Dokl. Akad. Nauk SSSR, 159, No. 2, 1964.Google Scholar
36. Koslovskaya, S. V. Voprosy Kosmogonii, 8, 1962.Google Scholar
37. Berikashvili, V. S., Zharkov, V. N., Yanovskaya, T. B. Izv. Akad. Nauk SSSR. Ser. fiziki zemli, issue 7, 921, 1965.Google Scholar
1. Alfvén, H. Origin of the Moon. Science, 148, 476, 1965. (P66–6065)Google Scholar
2. Baldwin, R. B. On the origin of the Moon. J. geophys. Res., 71, 1936, 1966. (P66–22067; A66–26366)Google Scholar
3. Hédervári, P. Instability of small-size planetary cores and the development of the Moon. Nature, 202, 378, 1964. (P64–11889)Google Scholar
4. MacDonald, G. J. F. Earth and Moon: past and future. Science, 145, 881, 1964. (P65–15835)Google Scholar
5. Ruskol, E. L. On the past history of the Earth-Moon system. Icarus, 5, 221, 1966, (P66–28577)CrossRefGoogle Scholar
6. Ruskol, E. L. The tidal history and origin of the Earth-Moon system. Astr. Zu., 43, 829, 1966. (P66–35302)Google Scholar
7. Shimazu, Y. Survival time of lunar surface irregularities and viscosity distribution within the Moon. Icarus, 5, 455, 1966. (A66–38030; P66–32299)Google Scholar
8. Shoemaker, E. M. The geology of the Moon. Sci. Amer., 211, 38, 1964. (P65–13739)Google Scholar
9. Urey, H. C. Meteorites and the Moon. Science, 147, 1262, 1965. (P66–6072)Google Scholar
10. Urey, H. C. Chemical evidence relative to the origin of the solar system. Mon. Not. R. astr. Soc., 131, 199, 1966. (P66–13152)Google Scholar
11. Sorokin, N. A. Astr. Zu., 42, 1070, 1965.Google Scholar
12. Petrova, G. G. Diploma work, Physical Dept., Moscow University, 1965.Google Scholar
13. Ruskol, E. L. Izv. Akad. Nauk SSSR, ser. geofiz., issue 2, 216–22, 1963.Google Scholar