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NASA's Juno Mission Captures Dynamic Cloud Patterns on Jupiter

Written by  Sunday, 21 July 2024 22:14
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Los Angeles CA (SPX) Jul 21, 2024
During its 61st close flyby of Jupiter on May 12, 2024, NASA's Juno spacecraft captured a stunning color-enhanced view of the giant planet's northern hemisphere. This detailed image showcases the chaotic clouds and cyclonic storms in an area scientists refer to as a folded filamentary region. In these zones, the zonal jets responsible for Jupiter's banded cloud patterns break down, resulting in
NASA's Juno Mission Captures Dynamic Cloud Patterns on Jupiter
by Clarence Oxford
Los Angeles CA (SPX) Jul 22, 2024

During its 61st close flyby of Jupiter on May 12, 2024, NASA's Juno spacecraft captured a stunning color-enhanced view of the giant planet's northern hemisphere. This detailed image showcases the chaotic clouds and cyclonic storms in an area scientists refer to as a folded filamentary region. In these zones, the zonal jets responsible for Jupiter's banded cloud patterns break down, resulting in rapidly evolving turbulent patterns and cloud structures over a matter of days.

Citizen scientist Gary Eason created this remarkable image using raw data from the JunoCam instrument, employing digital processing techniques to enhance its color and clarity.

At the time the raw image was taken, the Juno spacecraft was approximately 18,000 miles (29,000 kilometers) above Jupiter's cloud tops, positioned at a latitude of about 68 degrees north of the equator.

JunoCam's raw images are available to the public for exploration and processing into final image products at https://missionjuno.swri.edu/junocam/processing. For more information on NASA's citizen science programs, visit https://science.nasa.gov/citizenscience and https://www.nasa.gov/solve/opportunities/citizenscience.

Juno, launched in 2011, aims to understand Jupiter's origins, structure, atmosphere, and magnetosphere by conducting long-term close-up observations. Since entering Jupiter's orbit in 2016, Juno has provided unprecedented insights into the planet's dynamics. The spacecraft's suite of scientific instruments has allowed researchers to peer below the cloud cover, revealing the complexities of Jupiter's atmospheric conditions and magnetic field.

The folded filamentary regions, observed in this flyby, are particularly intriguing to scientists. These areas show the interplay of different atmospheric forces that create the planet's distinct cloud formations and weather patterns. By studying these regions, researchers hope to gain a deeper understanding of the mechanisms driving Jupiter's atmospheric behavior.

Juno's findings have broad implications beyond Jupiter. By comparing the gas giant's atmospheric phenomena with those observed on other planets, including Earth, scientists can refine their models of atmospheric dynamics and improve predictions of weather and climate systems.

More information about Juno can be found at https://www.nasa.gov/juno and https://missionjuno.swri.edu. For detailed findings and other scientific results from the Juno mission, visit https://www.missionjuno.swri.edu/science-findings.

Related Links
JunoCam Image Processing
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