%0 Journal Article
%T Time variation of JupiterĄ¯s internal magnetic field consistent with zonal wind advection
%J -
%D 2019
%R https://doi.org/10.1038/s41550-019-0772-5
%X Determination of the time dependency (secular variation) of a planetĄ¯s magnetic field provides a window into understanding the dynamo responsible for generating its field. However, of the six Solar System planets with active dynamos, secular variation has been firmly established only for Earth. Here, we compare magnetic field observations of Jupiter from the Pioneer 10 and 11, Voyager 1 and Ulysses spacecraft (acquired 1973¨C1992) with a new Juno reference model (JRM09)1. We find a consistent, systematic change in JupiterĄ¯s field over this 45-year time span, which cannot be explained by changes in the magnetospheric field or by changing the assumed rotation rate of Jupiter. Through a simplified forward model, we find that the inferred change in the field is consistent with advection of the field by JupiterĄ¯s zonal winds, projected down to 93¨C95% of JupiterĄ¯s radius (where the electrical conductivity of the hydrogen envelope becomes sufficient to advect the field). This result demonstrates that zonal wind interactions with JupiterĄ¯s magnetic field are important and lends independent support to atmospheric and gravitational-field determinations of the profile of JupiterĄ¯s deep winds
%U https://www.nature.com/articles/s41550-019-0772-5