Scale factor of the phenomenon of zonal disintegration of rocks and stratification of the lunar interior from seismic data

1. V. N. Oparin and M. V. Kurlenya, "Gutenburg velocity section of the Earth and its possible geomechanical explanation," Fiz.-Tekh. Probl. Razrab. Polezn. Iskop., Part I, No. 2 (1994); Part II, No. 3 (1994); Part III, No. 4 (1994); and, Part IV, No. 6 (1994).

2. N. V. Kurlenya, V. N. Oparin, V. N. Reva, F. P. Glushikhin, and M. A. Rozenbaum, "Discovery No. 400: phenomenon of zonal disintegration of rocks around underground workings," Published in Byull. Iskop., No. 1 (1992).

3. M. V. Kurlenya and V. N. Oparin, "The scale factor of the phenomenon of zonal disintegration of rock and canonical series of atomic-ionic radii," Fiz.-Tekh. Probl. Razrab. Polezn. Iskop., No. 2 (1996).

4. M. V. Kurlenya, V. N. Oparin, and V. I. Vostrikov, "On one model of the blast effect in a hole," Fiz.-Tekh. Probl. Razrab. Polezn. Iskop., No. 2 (1997).

5. Y. Nakamura, "Seismic velocity structure of the lunar mantle," J. Geophys. Res.,80, No. B1, 677–686 (1983).

   Google Scholar 

6. Brief Description of Comparative Planetology [in Russian], V. L. Barsukov (ed.), Nauka, Moscow (1981).

   Google Scholar 

7. M. T. Zuber et al., "The shape and internal structure of the moon from the Clementine mission," Science,266, 1835–1839 (1994).

   Article  Google Scholar 

8. O. L. Kuskov, A. I. Shapkin, and Yu. I. Sidorov, "On the possibility of the existence of hydrosilicates in the lunar mantle," Geokhim., No. 11 (1995).

9. Y. Nakamura, G. V. Latham, and H. J. Dorman, "Apollo lunar seismic equipment — final summary," in: Proceedings of the Thirteenth Lunar Planetary Scientific Conference (1982), pp. 117–123.

10. N. R. Goins, A. M. Dainty, and M. N. Toksöz, "Lunar seismology: the internal structure of the Moon," J. Geophys. Res.,86, 5061–5074 (1981).

    Article  Google Scholar 

11. J. Voss, W. Weinrebe, F. Schildknecht, and R. Meissner, "Filter process applied to the scattering parts of lunar seismograms for identifying the 300 km discontinuity and the lunar grid system," in: Proceedings of the Seventh Lunar Planetary Scientific Conference (1976), pp. 3133–3142.

12. M. N. Toksöz and S. Stein, "Seismic investigations of the lunar interior," in: Proceedings of the Seventh Lunar Planetary Scientific Conference (1976), pp. 3057–3075.

13. A. A. Godovnikov, Mineralogy [in Russian], Nedra, Moscow (1983).

    Google Scholar 

14. Y. Nakamura and J. Koyama, "Seismic Q of lunar upper mantle," J. Geophys. Res., 4855–4861 (1982), (1987).

15. O. G. Shamina, A. M. Palenov, V. S. Tkachenko, and I. A. Yakushina, "Effect of vibration on moisture-saturated rocks," Fiz. Zemli, No. 1 (1997).

16. J. Morgan, R. Ganapazi, H. Higachi, and E. Anders, "Meteorite matter on the Moon," in: Space Chemistry of the Moon and Planets [in Russian], Nauka, Moscow (1975).

    Google Scholar 

17. C. Meyer, Jr., D. S. McKay, D. H. Anderson, and P. Butler, "The source of sublimates on the Apollo 15 green and Apollo 17 orange glass samples," in: Proceedings of the Sixth Lunar Scientific Conference, Vol. 2 (1975), pp. 1673–1689.

    Google Scholar 

18. A. V. Vityazev, G. V. Pechernikova, and V. S. Safronov, Planets of the Earth Group [in Russian], Nauka, Moscow (1990).

    Google Scholar 

19. S. Nozett et al., "The Clementine mission to the Moon: scientific overview," Science,266, 1835–1839 (1994).

    Article  Google Scholar 

20. M. T. Zuber et al., "The shape and internal structure of the Moon from the Clementine mission," ibid., 1839–1843.

    Article  Google Scholar 

21. C. M. Pieters et al., "A sharper view of impact craters from Clementine data," ibid., 1844–1848.

    Article  Google Scholar 

22. P. D. Spudis et al., "Ancient multiring basins on the Moon revealed by Clementine laser altimetry," ibid., 1848–1851.

    Article  Google Scholar 

23. E. M. Shoemaker et al., "The South Pole Region of the Moon as seen by Clementine," ibid., 1851–1854.

    Article  Google Scholar 

24. A. S. McEwen et al., "Clementine observations of the Aristarchus Region on the Moon," ibid., 1858–1862.

    Article  Google Scholar 

25. A. T. Basilevsky, "On the evolution rate of small lunar craters," in: Proceedings of the Seventh Lunar Scientific Conference, Vol.1 (1976), pp. 1005–1020.

    Google Scholar 

26. A. Fujiwara, G. Kamimoto, and A. Tsukamato, "Destruction of basaltic bodies by high-velocity impact," Icarus,31, No. 3, 277–288 (1977).

    Article  Google Scholar 

27. S. F. Dermott, "Body’s law and the predominance of approximate commensurability of pairs of orbital periods in the Solar System," in: Pr. Soln. Sist. (1976).

28. Physical Encyclopedic Dictionary [in Russian], Sovetskaya Èntsiklopediya, Moscow (1983).

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