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Дата изменения: Tue Apr 28 15:56:06 2015 Дата индексирования: Sat Apr 9 22:29:48 2016 Кодировка: Поисковые слова: photosphere |
S. G. Pugacheva. Sternberg State Astronomical Institute,
Moscow, 119899, Russia, pugach@sai.msu.ru
Brown University - Vernadsky Institute Microsymposium 34,
October 8-9, 2001, Moscow, Russia
MS058.pdf - 567KB
S. G. Pugacheva, V.V. Shevchenko. Sternberg
State Astronomical Institute, Moscow University, Russia,
pugach@sai.msu.ru
Brown University - Vernadsky Institute Microsymposium 38,
October 27-29, 2003, Moscow, Russia
ms080.pdf - 533KB
S.G. Pugacheva, V.V.
Shevchenko. Sternberg State Astronomical Institute, Moscow University, 13
Universitetsky pr., 119992 Moscow, Russia, pugach@sai.msu.ru.
Brown University - Vernadsky Institute Microsymposium 42,
October 10-12, 2005, Moscow, Russia
m42_60.pdf - 43KB
S.G. Pugacheva. Sternberg State Astronomical Institute, Moscow
University, 13 Universitetsky pr., 119992 Moscow, Russia,
pugach@sai.msu.ru.
m44_70_pugacheva.pdf - 204KB
V. V. Shevchenko, V. I. Chikmachev, and S. G. Pugacheva
Sternberg State Astronomical Institute, Lomonosov Moscow State University,
Universitetskii pr. 13, Moscow, 119899 Russia
Received April 10, 2007
Abstract
The hypsometric map and the basin height profiles, for the first time relying upon a spherical daturence surface, have been constructed based on the generalization of the heights measured within the hemisphere including the ring structure of the South Pole–Aitken basin. The distribution of the major chemical elements (Fe and Th), depending upon the structure height levels, has been obtained. The relationship between these lunar rock indicators and the height levels of the rock preferential distribution has been revealed. The outer basin ring has been distinguished and the ring structure of the central basin depression has been revealed against a combined hypsometric and geochemical background. A total basin diameter of about 3500 km has been reliably determined for the first time. A unique feature of the basin structure consists in that the arrangement of the basin inner rings does not show a central circular symmetry, which can indicate that a hypothetical impactor moved along the trajectory (or orbit) oriented almost normally to the ecliptic plane. In combination with the revealed very small depth–diameter ratio in the initial basin structure, this circumstance makes it possible to put forward the hypothesis that a comet impact produced the South Pole–Aitken basin.
SSR447.pdf - 1612KB
S. G. Pugacheva and V. V. Shevchenko, Sternberg State Astronomical Institute, Moscow University, 13 Universitetsky pr., 119992 Moscow, Russia, pugach@sai.msu.ru.
Pugacheva LPS 41.pdf - 208Kб
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