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The effect of galactic perturbations on long-period cometary orbits is re-examined using a more realistic galactic model. Numerical and analytical calculations confirm the general result of an earlier paper which demonstrated that the Galaxy can perturb comets into and out of the Oort cloud. New equations are developed to describe the perturbed orbits. 相似文献
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John Byl 《Earth, Moon, and Planets》1983,29(2):121-137
The effect of galactic perturbations on long-period comet orbits is examined via numerical and analytical means. Relations are found between a comet's initial perihelion position and the positions of succeeding perihelia. It was found that the galactic effects were strongest on the comets initially at galactic latitudes close to 40°. In such cases the galactic perturbations caused the orbit to become almost circular before becoming nearly parabolic again. This effect allows comets with semimajor axes of about 25 000 AU to make only a few passages through the inner solar system in a time interval of 109yr. Thus the galactic field is an important factor in the evolution of long-period comet orbits. The observed distribution of perihelia of long-period comets indicates that galactic effects have been active. 相似文献
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