Measurement of Jupiter's asymmetric gravity field
- Creators
- Iess, L.
- Folkner, W. M.
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Durante, D.
- Parisi, M.
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Kaspi, Y.
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Galanti, E.
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Guillot, T.
- Hubbard, W. B.
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Stevenson, D. J.
- Anderson, J. D.
- Buccino, D. R.
- Gomez Casajus, L.
- Milani, A.
- Park, R.
- Racioppa, P.
- Serra, D.
- Tortora, P.
- Zannoni, M.
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Cao, H.
- Helled, R.
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Lunine, J. I.
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Miguel, Y.
- Militzer, B.
- Wahl, S.
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Connerney, J. E. P.
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Levin, S. M.
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Bolton, S. J.
Abstract
The gravity harmonics of a fluid, rotating planet can be decomposed into static components arising from solid-body rotation and dynamic components arising from flows. In the absence of internal dynamics, the gravity field is axially and hemispherically symmetric and is dominated by even zonal gravity harmonics J_(2n) that are approximately proportional to q^n, where q is the ratio between centrifugal acceleration and gravity at the planet's equator. Any asymmetry in the gravity field is attributed to differential rotation and deep atmospheric flows. The odd harmonics, J_3, J_5, J_7, J_9 and higher, are a measure of the depth of the winds in the different zones of the atmosphere. Here we report measurements of Jupiter's gravity harmonics (both even and odd) through precise Doppler tracking of the Juno spacecraft in its polar orbit around Jupiter. We find a north–south asymmetry, which is a signature of atmospheric and interior flows. Analysis of the harmonics, described in two accompanying papers, provides the vertical profile of the winds and precise constraints for the depth of Jupiter's dynamical atmosphere.
Additional Information
© 2018 Macmillan Publishers Limited. received 20 September 2017; accepted 18 January 2018. This research was carried out at the Sapienza University of Rome, University of Bologna and University of Pisa under the sponsorship of the Italian Space Agency; at the Jet Propulsion Laboratory, California Institute of Technology under a NASA contract; by the Southwest Research Institute under a NASA contract. Support was provided also by the Israeli Space Agency (Y.K. and E.G.) and the Centre National d'Études Spatiales (T.G. and Y.M.). All authors acknowledge support from the Juno Project. Author Contributions: L.I. and W.M.F. led the experiment and supervised the data analysis. L.I. wrote most of the manuscript. D.D. and M.P. carried out the gravity data analysis. Y.K. and E.G. provided models of the asymmetric and tesseral gravity field. Y.K., E.G., T.G., W.B.H. and D.J.S. carried out consistency checks with interior models and provided theoretical support. D.R.B. planned and supervised the data collection. P.R. designed and coded the orbit determination filter used in this analysis. L.G.C., P.T. and M.Z. provided the media calibrations. J.D.A., A.M., R.P. and D.S. advised on the data analysis. H.C., R.H., J.I.L., Y.M., B.M. and S.W. helped in the definition of the scientific objectives of the measurements. J.E.P.C., S.M.L. and S.J.B. supervised the planning and execution of the gravity experiment. Data availability: The Juno tracking data and the ancillary information used in this analysis are archived at NASA's Planetary Data System (https://pds.nasa.gov). Code availability: The analysis presented in this work relies on proprietary orbit determination codes that are not publicly available. The MONTE software package is used at the Jet Propulsion Laboratory for planetary spacecraft navigation. The ORACLE orbit determination filter was developed at Sapienza University of Rome under contract with the Italian Space Agency. The authors declare no competing financial interests.Attached Files
Supplemental Material - nature25776-sf1.jpg
Supplemental Material - nature25776-sf2.jpg
Supplemental Material - nature25776-sf3.jpg
Supplemental Material - nature25776-sf4.jpg
Supplemental Material - nature25776-sf5.jpg
Supplemental Material - nature25776-st1.jpg
Supplemental Material - nature25776-st2.jpg
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Additional details
- Alternative title
- Asymmetric gravity field of Jupiter
- Eprint ID
- 84125
- Resolver ID
- CaltechAUTHORS:20180105-103445288
- Agenzia Spaziale Italiana (ASI)
- NASA/JPL/Caltech
- Israeli Space Agency
- Centre National d'Études Spatiales (CNES)
- Created
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2018-03-08Created from EPrint's datestamp field
- Updated
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2021-11-15Created from EPrint's last_modified field
- Caltech groups
- Astronomy Department, Division of Geological and Planetary Sciences (GPS)