Waves in the Jovian Upper Atmosphere

Richard G. French Center for Radio physics and Space Research, Cornell University, Ithaca, N. Y. 14850

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Peter J. Gierasch Center for Radio physics and Space Research, Cornell University, Ithaca, N. Y. 14850

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Abstract

We examine a propagating wave interpretation of the temperature profile features observed in the Jovian upper atmosphere by Veverka et al. Inertia-gravity waves with frequencies on the order of 3 × 10−3 sec−1 are consistent with the data. If the interpretation is correct, and if the waves carry energy upward, it implies 1) that there is excitation of such waves at lower levels, 2) that eddy diffusivities on the order of 106 cm2 sec−1 are probably generated by the waves, and 3) that the energy carried by waves is important to the upper atmospheric heat balance.

Abstract

We examine a propagating wave interpretation of the temperature profile features observed in the Jovian upper atmosphere by Veverka et al. Inertia-gravity waves with frequencies on the order of 3 × 10−3 sec−1 are consistent with the data. If the interpretation is correct, and if the waves carry energy upward, it implies 1) that there is excitation of such waves at lower levels, 2) that eddy diffusivities on the order of 106 cm2 sec−1 are probably generated by the waves, and 3) that the energy carried by waves is important to the upper atmospheric heat balance.

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