Tidal perturbations of the rotation of the moon: the creep tide approach
Contribuinte(s) |
UNIVERSIDADE DE SÃO PAULO |
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Data(s) |
04/12/2013
04/12/2013
2013
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Resumo |
In this communication we report results from the application to the study of the rotation of the Moon of the creeping tide theory just proposed (Ferraz-Mello, Cel. Mech. Dyn. Astron., submitted. ArXiv astro-ph 1204.3957). The choice of the Moon for the first application of this new theory is motivated by the fact that the Moon is one of the best observed celestial bodies and the comparison of the theoretical predictions of the theory with observations i may validate the theory or point out the need of further improvements. Particularly, the tidal perturbations of the rotation of the Moon - the physical libration of the Moon - have been detected in the Lunar Laser Ranging measurements (Williams et al. JGR 106, 27933, 2001). The major difficulty in this application comes from the fact that tidal torques in a planet-satellite system are very sensitive to the distance between the two-bodies, which is strongly affected by Solar perturbations. In the case of the Moon, the main solar perturbations - the Evection and the Variation - are more important than most of the Keplerian oscillations, being smaller only than the first Keplerian harmonic (equation of the centre). Besides, two of the three components of the Moon's libration in longitude whose tidal contributions were determined by LLR are related to these perturbations. The results may allow us to determine the main parameter of a possible Moon's creeping tide. The preliminary results point to a relaxation factor (gamma) 2 to 4 times smaller than the one predicted from the often cited values of thr Moon's quality factor Q (between 30 and 40), and points to larger Q values. |
Identificador |
Meeting of the Division on Dynamical Astronomy, 44, 2013, Paraty. |
Idioma(s) |
eng |
Publicador |
American Astronomical Society Paraty |
Relação |
Meeting of the Division on Dynamical Astronomy, 44 |
Direitos |
openAccess Copyright 2013 American Astronomical Society |
Palavras-Chave | #LUA #MARÉ #MECÂNICA CELESTE |
Tipo |
conferenceObject Resumo |