Abstract
The larger of the two satellites which bound the F-ring of Saturn could have only one first-order resonance within the ring. If such a resonance exists, then a wave pattern of equally spaced loops which co-rotate with the satellite will be excited. This pattern could account for the braided appearance of the ring.
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References
Goldreich, P. & Tremaine, S. Nature 277, 97–99 (1979).
Voyager Bull., Mission Status Rep. No. 56 (31 October 1980).
Smith, B. A. et al. Science (in the press).
Lin, D. N. C. & Papaloizou, J. Mon. Not. R. astr. Soc. 186, 799–812 (1979).
Julian, W. H. & Toomre, A. Astrophys. J. 146, 810–830 (1966).
Greenberg, R. Astr. J. 78, 338–346 (1973).
Dermott, S. F., Farouki, R. & Murray, C. D. (in preparation).
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Dermott, S. The ‘braided’ F-ring of Saturn. Nature 290, 454–457 (1981). https://doi.org/10.1038/290454a0
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DOI: https://doi.org/10.1038/290454a0
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