Cassini ISS Observation of Saturn's North Polar Vortex and Comparison to the South Polar Vortex

We present analyses of Saturn's north pole using high-resolution images captured in late 2012 by the Cassini spacecraft's Imaging Science Subsystem (ISS) camera. The images reveal the presence of an intense cyclonic vortex centered at the north pole. In the red and green visible continuum...

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Published in:Icarus
Main Authors: Sayanagi, Kunio M., Blalock, John J., Dyudina, Ulyana A., Ewald, Shawn P., Ingersoll, Andrew P.
Format: Article in Journal/Newspaper
Language:unknown
Published: Elsevier 2017
Subjects:
Atmospheres
dynamics
Saturn
atmosphere
Jovian planets
North Pole
South Pole
South pole
Online Access:https://doi.org/10.1016/j.icarus.2016.12.011
id ftcaltechauth:oai:authors.library.caltech.edu:d1fp3-sd806
record_format openpolar
spelling ftcaltechauth:oai:authors.library.caltech.edu:d1fp3-sd806 2024-10-20T14:10:44+00:00 Cassini ISS Observation of Saturn's North Polar Vortex and Comparison to the South Polar Vortex Sayanagi, Kunio M. Blalock, John J. Dyudina, Ulyana A. Ewald, Shawn P. Ingersoll, Andrew P. 2017-03-15 https://doi.org/10.1016/j.icarus.2016.12.011 unknown Elsevier https://doi.org/10.1016/j.icarus.2016.12.011 eprintid:72918 info:eu-repo/semantics/closedAccess Other Icarus, 285, 68-82, (2017-03-15) Atmospheres dynamics Saturn atmosphere Jovian planets info:eu-repo/semantics/article 2017 ftcaltechauth https://doi.org/10.1016/j.icarus.2016.12.011 2024-09-25T18:46:44Z We present analyses of Saturn's north pole using high-resolution images captured in late 2012 by the Cassini spacecraft's Imaging Science Subsystem (ISS) camera. The images reveal the presence of an intense cyclonic vortex centered at the north pole. In the red and green visible continuum wavelengths, the north polar region exhibits a cyclonically spiraling cloud morphology extending from the pole to 85°N planetocentric latitude, with a 4700 km radius. Images captured in the methane bands, which sense upper tropospheric haze, show an approximately circular hole in the haze extending up to 1.5° latitude away from the pole. The spiraling morphology and the "eye"-like hole at the center are reminiscent of a terrestrial tropical cyclone. In the System III reference frame (rotation period of 10h39m22.4s, Seidelmann et al. 2007; Archinal et al. 2011), the eastward wind speed increases to about 140 m s^(−1) at 89°N planetocentric latitude. The vorticity is (6.5± 1.5)×10^(−4)s^(−1) at the pole, and decreases to (1.3± 1.2)×10^(−4)s^(−1) at 89°N. In addition, we present an analysis of Saturn's south polar vortex using images captured in January 2007 to compare its cloud morphology to the north pole. The set of images captured in 2007 includes filters that have not been analyzed before. Images captured in the violet filter (400 nm) also reveal a bright polar cloud. The south polar morphology in 2007 was more smooth and lacked the small clouds apparent around the north pole in 2012. Saturn underwent equinox in August 2009. The 2007 observation captured the pre-equinox south pole, and the 2012 observation captured the post-equinox north pole. Thus, the observed differences between the poles are likely due to seasonal effects. If these differences indeed are caused by seasonal effects, continuing observations of the summer north pole by the Cassini mission should show a formation of a polar cloud that appears bright in short-wavelength filters. © 2016 Elsevier Inc. Received date: 16 February 2016; Revised ... Article in Journal/Newspaper North Pole South pole Caltech Authors (California Institute of Technology) North Pole South Pole Icarus 285 68 82
institution Open Polar
collection Caltech Authors (California Institute of Technology)
op_collection_id ftcaltechauth
language unknown
topic Atmospheres
dynamics
Saturn
atmosphere
Jovian planets
spellingShingle Atmospheres
dynamics
Saturn
atmosphere
Jovian planets
Sayanagi, Kunio M.
Blalock, John J.
Dyudina, Ulyana A.
Ewald, Shawn P.
Ingersoll, Andrew P.
Cassini ISS Observation of Saturn's North Polar Vortex and Comparison to the South Polar Vortex
topic_facet Atmospheres
dynamics
Saturn
atmosphere
Jovian planets
description We present analyses of Saturn's north pole using high-resolution images captured in late 2012 by the Cassini spacecraft's Imaging Science Subsystem (ISS) camera. The images reveal the presence of an intense cyclonic vortex centered at the north pole. In the red and green visible continuum wavelengths, the north polar region exhibits a cyclonically spiraling cloud morphology extending from the pole to 85°N planetocentric latitude, with a 4700 km radius. Images captured in the methane bands, which sense upper tropospheric haze, show an approximately circular hole in the haze extending up to 1.5° latitude away from the pole. The spiraling morphology and the "eye"-like hole at the center are reminiscent of a terrestrial tropical cyclone. In the System III reference frame (rotation period of 10h39m22.4s, Seidelmann et al. 2007; Archinal et al. 2011), the eastward wind speed increases to about 140 m s^(−1) at 89°N planetocentric latitude. The vorticity is (6.5± 1.5)×10^(−4)s^(−1) at the pole, and decreases to (1.3± 1.2)×10^(−4)s^(−1) at 89°N. In addition, we present an analysis of Saturn's south polar vortex using images captured in January 2007 to compare its cloud morphology to the north pole. The set of images captured in 2007 includes filters that have not been analyzed before. Images captured in the violet filter (400 nm) also reveal a bright polar cloud. The south polar morphology in 2007 was more smooth and lacked the small clouds apparent around the north pole in 2012. Saturn underwent equinox in August 2009. The 2007 observation captured the pre-equinox south pole, and the 2012 observation captured the post-equinox north pole. Thus, the observed differences between the poles are likely due to seasonal effects. If these differences indeed are caused by seasonal effects, continuing observations of the summer north pole by the Cassini mission should show a formation of a polar cloud that appears bright in short-wavelength filters. © 2016 Elsevier Inc. Received date: 16 February 2016; Revised ...
format Article in Journal/Newspaper
author Sayanagi, Kunio M.
Blalock, John J.
Dyudina, Ulyana A.
Ewald, Shawn P.
Ingersoll, Andrew P.
author_facet Sayanagi, Kunio M.
Blalock, John J.
Dyudina, Ulyana A.
Ewald, Shawn P.
Ingersoll, Andrew P.
author_sort Sayanagi, Kunio M.
title Cassini ISS Observation of Saturn's North Polar Vortex and Comparison to the South Polar Vortex
title_short Cassini ISS Observation of Saturn's North Polar Vortex and Comparison to the South Polar Vortex
title_full Cassini ISS Observation of Saturn's North Polar Vortex and Comparison to the South Polar Vortex
title_fullStr Cassini ISS Observation of Saturn's North Polar Vortex and Comparison to the South Polar Vortex
title_full_unstemmed Cassini ISS Observation of Saturn's North Polar Vortex and Comparison to the South Polar Vortex
title_sort cassini iss observation of saturn's north polar vortex and comparison to the south polar vortex
publisher Elsevier
publishDate 2017
url https://doi.org/10.1016/j.icarus.2016.12.011
geographic North Pole
South Pole
geographic_facet North Pole
South Pole
genre North Pole
South pole
genre_facet North Pole
South pole
op_source Icarus, 285, 68-82, (2017-03-15)
op_relation https://doi.org/10.1016/j.icarus.2016.12.011
eprintid:72918
op_rights info:eu-repo/semantics/closedAccess
Other
op_doi https://doi.org/10.1016/j.icarus.2016.12.011
container_title Icarus
container_volume 285
container_start_page 68
op_container_end_page 82
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