Saturn’s weather‐driven aurorae modulate oscillations in the magnetic field and radio emissions
The Cassini spacecraft revealed that Saturn's magnetic field displayed oscillations at a period originally thought to match the planetary rotation rate but later found not to. One of many proposed theories predicts that a polar twin-cell neutral weather system drives this variation, producing observable differences in flows within Saturn's ionosphere. Here, using spectral observations of auroral https://agupubs.onlinelibrary.wiley.com/cms/asset/62ebcbcd-6654-4eeb-8580-c7c18ce6bcc0/grl63524-math-0001.png emission lines taken by the Keck Observatory's Near Infrared Echelle Spectrograph (Keck-NIRSPEC) in 2017, we derive ion line-of-sight velocity maps after grouping spectra into rotational quadrants matching phases of the planetary magnetic field. We measure 0.5 km s−1 wind systems in the ionosphere consistent with predicted neutral twin-vortex flow patterns. These findings demonstrate that neutral winds in Saturn's polar regions cause the rotational period, as determined via the magnetic field, to exhibit differences and time variabilities relative to the planet's true period of rotation in a process never before seen within planetary atmospheres.
Funding
A Consolidated Grant Proposal for Solar System Research at the University of Leicester (2016-2019)
Science and Technology Facilities Council
Find out more...Space and Planetary Research at Lancaster University
Science and Technology Facilities Council
Find out more...Giants through Time: Towards a Comprehensive Giant Planet Climatology
European Research Council
Find out more...IONOSPHERIC CHEMISTRY AND STRUCTURE OF THE GIANT PLANETS
National Aeronautics and Space Administration
Find out more...80NM0018D0004
ASTIlluminating Solar-Planetary Interactions
Science and Technology Facilities Council
Find out more...Keck Principal Investigator Award
MEXT, Japan Aerospace Exploration Agency International Top Young Fellowship
NASA Exoplanet Science Institute
Humanities Montana
Office of Legacy Management
Japan Aerospace Exploration Agency
History
Citation
Chowdhury, M. N., Stallard, T. S., Baines, K. H., Provan, G., Melin, H., Hunt, G. J., et al. (2022). Saturn's weather-driven aurorae modulate oscillations in the magnetic field and radio emissions. Geophysical Research Letters, 49, e2021GL096492.Author affiliation
School of Physics and Astronomy, University of LeicesterVersion
- VoR (Version of Record)