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Giant Planet Atmospheres: Dynamics and Variability from UV to Near-IR Hubble and Adaptive Optics Imaging

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posted on 2024-09-05, 15:09 authored by Amy A Simon, Michael H Wong, Lawrence A Sromovsky, Leigh FletcherLeigh Fletcher, Patrick M Fry

Each of the giant planets, Jupiter, Saturn, Uranus, and Neptune, has been observed by at least one robotic spacecraft mission. However, these missions are infrequent; Uranus and Neptune have only had a single flyby by Voyager 2. The Hubble Space Telescope, particularly the Wide Field Camera 3 (WFC3) and Advanced Camera for Surveys (ACS) instruments, and large ground-based telescopes with adaptive optics systems have enabled high-spatial-resolution imaging at a higher cadence, and over a longer time, than can be achieved with targeted missions to these worlds. These facilities offer a powerful combination of high spatial resolution, often <0.05”, and broad wavelength coverage, from the ultraviolet through the near infrared, resulting in compelling studies of the clouds, winds, and atmospheric vertical structure. This coverage allows comparisons of atmospheric properties between the planets, as well as in different regions across each planet. Temporal variations in winds, cloud structure, and color over timescales of days to years have been measured for all four planets. With several decades of data already obtained, we can now begin to investigate seasonal influences on dynamics and aerosol properties, despite orbital periods ranging from 12 to 165 years. Future facilities will enable even greater spatial resolution and, combined with our existing long record of data, will continue to advance our understanding of atmospheric evolution on the giant planets.

Funding

A.A.S., M.H.W., L.A.S. and P.M.F. were supported by grants from the Space Telescope Science Institute associated with programs GO13937, GO16057, GO16084, GO16454). L.A.S. and P.M.F. were also supported by NASA Solar System Observing Grant 80NSSC21K0292. L.N.F. was supported by a European Research Council Consolidator Grant (under the European Union’s Horizon 2020 research and innovation programme, grant agreement No 723890) at the University of Leicester.

History

Author affiliation

College of Science & Engineering Physics & Astronomy

Version

  • VoR (Version of Record)

Published in

Remote Sensing

Volume

14

Issue

6

Pagination

1518 - 1518

Publisher

MDPI AG

eissn

2072-4292

Copyright date

2022

Available date

2024-09-05

Language

en

Deposited by

Professor Leigh Fletcher

Deposit date

2024-08-15

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