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Science 14 October 1966:
Vol. 154. no. 3746, pp. 257 - 259
DOI: 10.1126/science.154.3746.257
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Articles

Radio Rotation Period of Jupiter

Samuel Gulkis 1 and Thomas D. Carr 2

1 Arecibo Ionospheric Observatory, Arecibo, Puerto Rico
2 Department of Physics and Astronomy, University of Florida, Gainesville

The results of observations of Jupiter at 18 megacycles per second indicate that the apparent rotation period drifts cyclically about a constant mean value. The most probable drift period appears to be 11.9 years, Jupiter's orbital period. The mean rotation period during one orbital period is about 0.3 second longer than that of the system III (1957.0) period. This is in close agreement with the rotation period deduced from decimetric observations and probably represents the true rotation period of the magnetic field. The cyclic drift in the rotation period of source A at 18 megacycles per second is explained on the basis of beaming of the escaping radiation at an angle 6 degrees north of the magnetic equator. The apparent rotation period of source A depends on the rate of change of the Jovicentric declination of Earth.

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Science. ISSN 0036-8075 (print), 1095-9203 (online)