Astronomy and Astrophysics – Astronomy
Scientific paper
Apr 2007
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007acasn..48..190z&link_type=abstract
Acta Astronomica Sinica, vol. 48, no. 1, p.190-199
Astronomy and Astrophysics
Astronomy
Comet: Individual, Planet And Satellite: Individual
Scientific paper
In order to explain the waves arising from the collisions of Comet Shoemaker-Levy 9 with Jupiter, we present a revised linear model in which the gravity wave propagation associated with the impacts is caused by an initial impulse and the Jovian atmosphere is considered as a rotating stratified, compressive and inviscid fluid layer. By means of a procedure similar to that adopted in Gill's book (1982), two derived equations (8) and (9) involving only the perpendicular component of perturbation velocity and the perturbation pressure can be obtained. In terms of the new variables defined by (11) and (12), the equations turn into (13) and (14). As pointed out by Dowling (1995), the Jovian atmosphere is a thin sheet of fluid and the shallow-water model can be used. It also means that the hydrostatic approximation can be used and the basic equations become (15) and (16). These equations have separable solutions of the form (17). It is stressed that we take an initial impulsive pressure prescribed at the surface of Jupiter as the initial condition rather than an initial surface deformation. This approach is expedient for the mathematical formulation of the problem, for instance, the vertical displacement of a fluid particle can be expressed by an integral transform of the potential energy and thereupon can be calculated. It is also shown by the calculations that although the contribution of the compressibility in the participation of impact energy is larger than that of the surface waves, which indicates the effect of compressibility can not be ignored, the energy of the internal waves is still the main part, i.e. most of the impacting energy is converted into the energy of internal waves.
Chen Dao-Han
Ma Ying-Hong
Zhang Pei-Pei
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