http://arxiv.org/abs/2101.12361
Recent Juno observations have greatly extended the temporal and spatial coverage of lightning detection on Jupiter. We use these data to constrain a model of moist convection and lightning generation in Jupiter’s atmosphere, and derive a roughly solar abundance of water at the base of the water cloud. Shallow lightning, observed by Juno (Becker et al., 2020, Nature, 584, 55-58) and defined as flashes originating at altitudes corresponding to pressure less than 2 bars, is reproduced, as is lightning at a deeper range of pressures, including those below the water cloud base. It is found that the generation of lightning requires ammonia to stabilize liquid water at altitudes corresponding to sub-freezing temperatures. We find a range of local water abundances in which lightning is possible, including subsolar values of water–consistent with other determinations of deep oxygen abundance.
Y. Aglyamov, J. Lunine, H. Becker, et. al.
Mon, 1 Feb 21
19/69
Comments: 47 pages, 7 figures, to be published in Journal of Geophysical Research – Planets
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